The Le Bail method is quite a small little thing, a tiny detail in the way to apply the Rietveld decomposition formula. But that tiny detail changes the horizon. Like for many things that seem obvious after their invention (you know, the wheel and so on), nobody think to it during years (20 !). Some even think today that I was not really the inventor... Let us see that.
1967-1969
Hugo Rietveld invents "A profile refinement method for nuclear and magnetic
structures". A long and controversial route was opened. The two papers
below were cited 501 and 3275 times, respectively, in the range 1975-2001
(Web of Science data).
|-1] H.M. Rietveld, Line profiles of neutron powder-diffraction
peaks for structure refinement, Acta Cryst. 22 (1967) 151-152.
[0] H.M. Rietveld, A profile refinement method for nuclear and magnetic
structures, J. Appl. Cryst. 2 (1969) 65-71.
1987
The idea about iterating the Rietveld decomposition formula for |F|s
estimation came during a long and lonesome night experiment at ILL (Institute
Laue-Langevin, Grenoble, France). It seemed so simple that my first thought
was that probably either it was already done or it did not work at all.
But at least everybody used it successfully for only one cycle when extracting
the so-called "|Fobs|" at the end of any Rietveld refinement. These "|Fobs|"
being used for RBragg calculation and Fourier difference purposes
though it was long recognized that they were biased due to partitioning
according to the Fcalc, hence the quotes.
Back to Le Mans (July 1987), the method was developed and tested rapidly
and successfully into the ARIT Fortran
Rietveld program working on a µ-VAX computer. Iterations were started
from a set of arbitrarily identical |F|s instead of |Fcal|s (that choice
leading to equipartition in case of strict overlapping of reflections),
while the cell and profile parameters were refined in the normal way (least-square).
The question of the conventional X-rays K-alpha-2 component was undertaken
by constraining the alpha-1 and alpha-2 |F| extracted values to be identical
for the same hkl set after every iteration. Convergence was faster
with monochromatic data than with K-alpha-1,2 data, because of the above
constraint. A first structure was determined during the following days,
and published in 1988 [1], followed by a dozen during the next three years.
These times were extremely exciting ! And the instant when a structure
is solved continues to excite me a lot. But I made the error of not publishing
clearly how that tiny invention worked. You always pay for your errors...
But it is true that the method is completely described by a quite short
and simple phrase : extracting "|Fobs|" by iterating the Rietveld decomposition
formula starting from a set of arbitrarily identical |F|s.
1988
The first stucture determinations by powder diffractometry (SDPD) applying iterations of the Rietveld decomposition formula were generally made in the following way : indexing by either DICVOL or TREOR; |F|s extraction by ARIT; use of direct or Patterson methods through SHELX-76 for obtaining a starting model from either all or a part of the extracted |F|s (it was possible to remove up to 50% of the data overlapping too much when using the direct methods, and evenmore when using the Patterson method, the building of the partial data sets was made by a companion program named OVERLAP); alternating Rietveld refinement by the ARIT program and Fourier difference syntheses by SHELX-76 for completing the structure, if necessary; the final Rietveld refinement being made by using ARIT in its normal Rietveld mode. In 1988, four publications [1-4] can be listed that used this procedure, one of them made use of neutron diffraction data. There is always some delay between structure solution and publication, so that the first conference I gave about "Ab initio crystal structure determination from powder diffraction data" was in Spain, University of Valencia, in July 1988, due to some collaborative work with P. Amoros and D. Beltran-Porter on the crystal structure of phosphate compounds that were published mainly in 1988-89. The slides of that old conference are available.
ARIT:
[1] Ab-initio structure determination of LiSbWO6
by X-ray powder diffraction, A. Le Bail, H. Duroy & J.L. Fourquet,
Mat. Res. Bull. 23 (1988) 447-452.
This ref [1] is the most cited paper about the Le Bail method. However,
it is the first application, without too much explanations about the algorithm.
More can be found in other paper, for instance the following which can
be cited preferably, if you wish :
Whole powder pattern decomposition methods and applications - A retrospection,
A. Le Bail, Powder Diffraction 20 (2005) 316-326.
[2] Crystal structure of A(VO2)(HPO4) (A = NH4+,
K+, Rb+) solved from X-ray powder diffraction, P.
Amoros, D. Beltran-Porter, A. Le Bail, G. Férey & G. Villeneuve,
Eur. J. Solid State Inorg. Chem. 25 (1988) 599-607.
[3] Determination of the crystal structure of Li2TbF6
from X-ray and neutron powder diffraction. An example of lithium in five-fold
coordination, Y. Laligant, A. Le Bail, G. Férey, D. Avignant &
J.C. Cousseins, Eur. J. Solid State Inorg. Chem. 25 (1988)
551-563.
[4] Synthesis and ab-initio structure determination from X-ray
powder data of Ba2PdO3 with sevenfold coordinated
Ba2+. Structural correlations with K2NiF4
and Ba2NiF6, Y. Laligant, A. Le Bail, G. Férey,
M. Hervieu, B. Raveau, A. Wilkinson & A.K. Cheetham, Eur. J. Solid
State Inorg. Chem. 25 (1988) 237-247.
1989
Meantime, a copy of the ARIT source code circulated at the ILL and its interest was recognized since the method was included into FULLPROF by Juan Rodriguez-Carvajal as soon as 1989, however, I was not informed of that before 1990. Five supplementary manuscripts [5-9] were published in 1989 that made use of the title method for structure factor amplitudes extraction, applying the ARIT software. In these publications, the method was generally described by only a few words like: "in order to obtain the maximum number of estimated individual intensities, the profile fitting procedure with cell constraints described in [1] was applied" or "Individual intensities are then extracted from the powder pattern by a profile fitting procedure which does not need any structural model but constrains the angular position of the reflections to be consistent with the cell parameters. The method used here is a new version of a modified Rietveld method [1]". One should not think that all these manuscripts were easily accepted. Some referees simply did not want to believe that the determination of these mediumly complex structures could be possible by using only powder data (for reference [5], one referee was especially difficult to convince...).
ARIT:
[5] Structure determination of NaPbFe2F9 by X-ray
powder diffraction, A. Le Bail, J. Solid State Chem. 83 (1989)
267-271.
[6] Structure of vanadyl hydrogenphosphate dihydrate alpha-VO(HPO4).2H2O
solved from X-ray and neutron powder diffraction, A. Le Bail, G. Férey,
P. Amoros & D. Beltran-Porter, Eur. J. Solid State Inorg. Chem.
26 (1989) 419-426.
[7] Crystal structure of beta-VO(HPO4).2H2O solved
from X-ray powder diffraction, A. Le Bail, G. Férey, P. Amoros,
D. Beltran-Porter & G. Villeneuve, J. Solid State Chem. 79
(1989) 169-176.
[8] (NH4)2FeF5 : crystal structures
of its alpha and beta forms, J.L. Fourquet, A. Le Bail, H. Duroy &
M.C. Moron, Eur. J. Solid State Inorg. Chem. 26 (1989) 435-443.
[8] Complex palladium oxides. V. Crystal structure of LiBiPd2O4:
an example of three different fourfold coordinations of cations, Y. Laligant,
A. Le Bail & G. Férey, J. Solid State Chem. 81
(1989) 58-64.
Other papers citing [1] in 1989 :
[9] NEWSAM JM; LIANG KS SYNCHROTRON X-RAY-DIFFRACTION STUDIES
OF INORGANIC MATERIALS AND HETEROGENEOUS CATALYSTS INTERNATIONAL
REVIEWS IN PHYSICAL CHEMISTRY 1989, Vol 8, Iss 4, pp 289-338
[10] FOURQUET JL; GILLET PA; LEBAIL A LI+/H+ TOPOTACTIC EXCHANGE
ON LISBO3 - THE SERIES LI1-XHX SBO3 (0 LESS-THAN-OR-EQUAL-TO X LESS-THAN-OR-EQUAL-TO
1) MATERIALS RESEARCH BULLETIN 1989, Vol 24, Iss 10, pp 1207-1214
[11] ATTFIELD JP; FEREY G STRUCTURE DETERMINATIONS OF LA2O2CO3-II
AND THE UNUSUAL DISORDERED PHASE LA2O2.52(CO3)0.74LI0.52 USING POWDER DIFFRACTION
JOURNAL OF SOLID STATE CHEMISTRY 1989, Vol 82, Iss 1, pp 132-138
[12] RODRIGO JL; CARRASCO P; ALAMO J THERMAL-EXPANSION OF NATI2(PO4)3
STUDIED BY RIETVELD METHOD FROM X-RAY-DIFFRACTION DATA MATERIALS
RESEARCH BULLETIN 1989, Vol 24, Iss 5, pp 611-618
1990
By the end of 1989, D. Louër, Chairman of the Powder Diffraction Satellite Meeting of the XVth IUCr congress (and also my first thesis advisor, 1974-76), send me an invitation to deliver a lecture under the topic "Practical aspects of structure determination from powder data". As a consequence, the |F|s extraction algorithm was presented at Toulouse (16-19 July 1990) [13]. The method was described by the following statement (see the full conference text and slides) : "Once a proposition for a space group is made, the extraction of |Fobs| is realized by using a local unpublished cell constrained profile fitting program able to produce 5 < Rwp < 8%. The main originality of this program is that the individual |Fobs| are not refined in a least squares sense, but they are determined by an iterative procedure based on the so-called "|Fobs|" in all Rietveld-type refinement programs". At that time, and presented at the same congress, FULLPROF already included it [14] under the "pattern matching" name. Juan Rodriguez-Carvajal's abstract gave a reference in a curious way : "The method of "pattern matching" consist of estimating the integrated intensities of an unknown structure without using the least squares optimization. The method, which has been also used by A. Lebail (private communication), is applied by iterating the formula introduced by Rietveld to calculate the nuclear R-factor from the "observed" integrated intensities" ( see the full text). "Also" is not the word I generally use for giving a reference. After the conference (mine), D.E. Cox told me privately : "This algorithm is the most interesting new thing which I heard during this congress". Dave Cox, back to the USA, soon tested the method (probably in the PROFPV Rietveld program by B. Toby and D.E. Cox) and returned a few words on a post-it:"it works !". That post-it was accompanying a reprint which I asked to him by the end of 1990. Then, Dave Cox wrote and discussed a lot about the algorithm so that it was soon introduced into other Rietveld software like GSAS. The FULLPROF manual contained the suggestion to make reference to [14] in case of use, but did not contained any reference to me about "pattern matching". And this was confusing for years, as the "also" was confusing in reference [14]. The explanation came later.
[13] A. Le Bail, The practice of structure determination from powder
data: how to succeed, Powder Diffraction, satellite meeting of the XVth
IUCr congress, Toulouse 16-19 July 1990, France http://www.cristal.org/iniref/toul.html
[14] J. Rodriguez-Carvajal, FULLPROF: A program for Rietveld refinement
and pattern matching analysis. Powder Diffraction, satellite meeting of
the XVth IUCr congress, Toulouse 16-19 July 1990, France (see the full
text)
ARIT
[15] Structure determination of beta- and gamma-BaAlF5 by
X-ray and neutron powder diffraction: a model for the alpha->beta<->gamma
transitions, A. Le Bail, G. Ferey, A.M. Mercier, A. de Kozak & M. Samouel,
J. Solid State Chem. 89 (1990) 282-291.
[16] Structure determination of NiV2O6 from X-ray
powder diffraction : a rutile-ramsdellite intergrowth, A. Le Bail &
M.-A. Lafontaine, Eur. J. Solid State Inorg. Chem. 27 (1990)
671-680.
[17] Copper containing minerals: I. Cu3V2O7(OH)2.2H2O:
the synthetic homologue of volborthite; crystal structure determination
from X-ray and neutron data; structural correlations, M.A. Lafontaine,
A. Le Bail & G. Férey, J. Solid State Chem. 85
(1990) 220-227.
Other papers citing [1] in 1990 :
[18] LE BAIL A; GAO Y; FOURQUET JL; JACOBONI C STRUCTURE DETERMINATION
OF K2NAAL3F12, RB2NAAL3F12 MATERIALS RESEARCH BULLETIN 1990, Vol
25, Iss 7, pp 831-839
[19] LAVAL JP; ABAOUZ A; FRIT B; LE BAIL A DEFECT STRUCTURE OF
THE ORTHORHOMBIC ANION-EXCESS FLUORITE-RELATED SMF1.60O0.70 PHASE
EUROPEAN JOURNAL OF SOLID STATE AND INORGANIC CHEMISTRY 1990, Vol 27, Iss
4, pp 545-555
[20] LAVAL JP; ABAOUZ A; FRIT B; LEBAIL A SHORT-RANGE ORDER IN
THE ANION-EXCESS FLUORITE-RELATED CA0.68LN0.32 F2.32 SOLID-SOLUTIONS
- EXAFS STUDY OF THE LN3+ ENVIRONMENT JOURNAL OF SOLID STATE
CHEMISTRY 1990, Vol 85, Iss 1, pp 133-143
[21] HEMON A; COURBION G THE NAF-CAF2-AIF3 SYSTEM - STRUCTURES
OF BETA-NACAALF6 AND NA4CA4AL7F33 JOURNAL OF SOLID STATE CHEMISTRY
1990, Vol 84, Iss 1, pp 153-164
1991
Still no publication of structure determination by powder diffractometry (SDPD) by using FULLPROF, but 1991 sees the first publication of an use of the ARIT program for SDPD purpose by a different team (Jouanneaux et al. [22]) though the final Rietveld refinement is made by the MPROF program. Then, the algorithm was included into MPROF itself by A. Jouanneaux. 1991 is also the first year for the publication of an SDPD using the algorithm inserted in another program than ARIT. Moreover, this SDPD is from a combination of synchrotron and neutron poqder diffraction data [23]. The software name is not given ("a locally modified version of the Rietveld program"), may be it was derived from PROFPV (?) by Toby and Cox, anyway, the information came obviously ftom Dave Cox at Brookhaven. That year, two other applications of ARIT were published [24-25]. The algorithm is described for the first time into a 1991 review paper by Cheetham and Wilkinson [26] with proper reference to [1] and it is said that it has been implemented into GSAS.
[22] Structure determination of beta-Tl3VO4 from
synchrotron radiation powder diffraction data : stereochemical role of
the lone pair of thallium(I), A. Jouanneaux, O. Joubert, A.N. Fitch &
M. Ganne, Mat. Res. bull. 26 (1991) 973-982.
[23] The ab initio crystal structure determination of CuPt3O6
from a combination of synchrotron X-ray and neutron powder diffraction
data, J.A. Hriljac, J.B. Parise, G.H. Kwei & K. B. Schwartz, J.
Phys. Chem. Solids 52 (1991) 1273-1279.
[24] Crystal structure of Pd(NO3)2(H2O)2,
Y. Laligant, G. Férey & A. Le Bail, Mat. Res. Bull. 26
(1991) 269-275.
[25] Synthesis, crystal structure, and magnetic properties of Co3(HPO4)2(OH)2
related to the mineral lazulite, J.L. Pizarro, G. Villeneuve, P. Hagenmuller
& A. Le Bail, J. Solid State Chem. 92 (1991) 273-285.
[26] Structure determination and refinement with synchrotron X-ray
powder diffraction data, A.K. Cheetham & A.P. Wilkinson, J. Phys. Chem.
Solids 52 (1991) 1199-1208.
Other papers citing [1] in 1991 :
[27] HIRAGUCHI H; HASHIZUME H; FUKUNAGA O; TAKENAKA A; SAKATA M
STRUCTURE DETERMINATION OF MAGNESIUM BORON-NITRIDE, MG3BN3, FROM X-RAY-POWDER
DIFFRACTION DATA JOURNAL OF APPLIED CRYSTALLOGRAPHY 1991, Vol 24,
pp 286-292
1992
The extraction algorithm was called probably for the first time the "Le Bail method" either in the P. Coppens book about synchrotron radiation [28], in chapter 9 written by Dave Cox, or in a paper published in Nature (1992) about the structure solution of Ga2(HPO3)3.4H2O [29], "a structure that is considerably more complex than any other structure solved using these techniques". Much more complex than this structure with "only" 29 atoms in the asymmetric unit cell has been solved from powder data during the next ten years, and the number of structures determined has increased by more than 400% in the 1992-2002 period. Certainly that 1992 year was marked by an explosion in the number of SDPDs based on |F|s extracted by iterating the Rietveld decomposition formula. Seven publications made use of the ARIT software [21-27]. The algorithm is now introduced into MPROF [28-29], GSAS [30-33], FULLPROF [34] (which was first used by D. Louër for |F| extraction and SDPD purpose), and other unnamed software [35-38]. More than 50% of the 1992 SDPDs were made by applying the Le Bail method.
This was also the APD-II (Accuracy in Powder Diffraction, May 26-29, 1992, Gaithersburg, USA) meeting year, and I was invited to give a talk about modelling anisotropic crystallite size/microstrain in Rietveld analysis [39]. I also presented a poster entitled "Extracting structure factors from powder diffraction data by iterating full pattern profile fitting" [40] in which more was shown (see the abstract and the full poster, and a picture of the group of participants). The fact is that that poster was dictated by a dermic reaction after I learned the reason why Juan Rodriguez-Carvajal did not put any reference to me into the FULLPROF manual and used the "also" during the 1990 Toulouse Powder Diffraction IUCr Satellite Meeting. By the end of 1991, I had in hands a text signed by J. Pannetier who gave a talk about "Techniques of analysis of powder diffraction patterns (X-ray & neutron)" for the training of high level students at a workshop organized at Nantes - France (September 1991, IMN, now Rouxel Institute). In the document, there was the statement: about pattern decomposition: "A more efficient algorithm has been proposed recently by Rodriguez-Carvajal: instead of including the integrated intensities in the least squares refinement, a procedure that yields huge normal equation matrices and is prone to instabilities, it makes use of the Rietveld formula to calculate by iteration the integrated intensities". It was unclear to me why J. Pannetier could believe that Rodriguez-Carvajal could be the author of the method. Knowing that Rodriguez and Pannetier shared the same office at ILL, very probably also during the period when Rodriguez included my algorithm inside FULLPROF after hearing my explanations and with the help of the ARIT source code, I decided to write directly to Rodriguez about that, rather than to J. Pannetier. After all, the lack of any reference to me inside the FULLPROF manual about "pattern matching" could be very confusing and is sufficient for believing that the FULLPROF author is also the author of "pattern matching"... The Rodriguez reply is available though in part in french, spanish and english (pages 1, 2, 3, 4). After that, I obtained the two papers by Taylor et al. cited by Rodriguez. I could understand that Rodriguez was wrong since Taylor writes in his 1986 paper that he was using the same method as Toraya in 1984 (i.e. using the Rietveld decomposition formula in the normal way, just like every Rietveld user). I obtained also Toraya's paper. This explains why citation and discussion of the Taylor et al. (1986-87) and Toraya (1984) papers appear into the abstract of my poster at the APD-II meeting, claiming that my algorithm is different. But again, this was unsufficient. No change appeared into the FULLPROF manual, even not a citation to Taylor that would be consistent with Rodriguez declarations... Well, such is life ! Toraya was at APD-II and looked accurately at the poster, without claiming to be the author of the Le Bail method... Confused ? See more about that in 1993.
Moreover, in September 1992, M. Anne was the successor to J. Pannetier at the IMN workshop, Nantes, France. And guess what ? M. Anne attributed the paternity of my |F| extraction algorithm to Taylor. I tried to explain him that this was wrong, in a personal letter. I think I failed. It seems that the whole and enormous "Powder-Grenoble-School" could not believe at all that this simple algorithm was invented by an insignifiant guy from the small "Powder-Le Mans-School". Well, such is life. I was tired of this dialogue of the deaf. I never tried to discuss again with Rodriguez about that point. This led to some surprises later, always generated by the fact that people using FULLPROF had few reasons to believe that Rodriguez was not the "pattern matching" author. Even in my own lab (not mine, the lab in which I work as a lonesome researcher), people use FULLPROF and the words "pattern matching", and some ignore that I am the author. Well I suppose than in Hugo Rietveld laboratory, few people call his method the Rietveld method. That is the same in Le Mans. Nobody call my method the Le Bail method. And this is better anyway. No one can claim to be a prophet in his own country (in french : "Nul n'est prophète en son pays").
[28] D.E. Cox, High resolution powder diffraction and structure determination,
Chapter 9 in Synchrotron Radiation Crystallography, P. Coppens, Academic
Press (1992) 186-254.
[29] Determination of complex structures by combined neutron and synchrotron
X-ray powder diffraction, R.E. Morris, W.T.A. Harrison, J.M. Nicol, A.P.
Wilkinson & A.K. Cheetham, Nature 359 (1992) 519-522
ARIT :
[30] t-AlF3: crystal structure determination from X-ray
powder diffraction data. A new MX3 corner-sharing octahedra
3D network, A. Le Bail, J.L. Fourquet & U. Bentrup, J. Solid State
Chem.
100 (1992) 151-159.
[31] Polymorphism of CsAlF4. Synthesis and structure of
two new crystalline forms, U. Bentrup, A. Le Bail, H. Duroy & J.L Fourquet,
Eur. J. Solid State Inorg. Chem. 29 (1992) 371-381.
[32] Crystal structure and thermolysis of K2(H5O2)Al2F9,
A. Le Bail, H. Duroy & J.L. Fourquet, J. Solid State Chem. 98
(1992) 151-158.
[33] X-ray powder structure determination of NaBaZrF7, Y.
Gao, J. Guery & C. Jacoboni, Eur. J. Solid State Inorg. Chem.
29
(1992) 1285-1293.
[34] Structure determination of Na2PdP2O7
from X-ray powder diffraction, Y. Laligant, Eur. J. Solid State Inorg.
Chem. 29 (1992) 83-94.
[35] Crystal structure of Li2PdP2O7
solved from X-ray powder diffraction,Y. Laligant, Eur. J. Solid State
Inorg. Chem. 29 (1992) 239-247. [36] Structure of the Lowest
Temperature Phase of the Solid Benzene-Hexafluorobenzene Adduct, J.H. Williams,
J.K. Cockcroft & A.N. Fitch, Angew. Chem. Int. Ed. Engl. 31
(1992)
1655-1657.
MPROF:
[37] Nb3(NbO)2(PO4)7 a
novel niobium V oxophosphate : synthesis and crystal structure determination
from high resolution X-ray powder diffraction, J.J. Zah-Letho, A. Jouanneaux,
A.N. Fitch, A. Verbaere & M. Tournoux, Eur. J. Solid State Inorg.
chem. 29 (1992) 1309-1320.
[38] Structure determination of Tl4V2O7
from powder diffraction data using an Inel X-ray PSD : stereochemical activity
of thallium(I) lone pair, A. Jouanneaux, O. Joubert, M. Evain & M.
Ganne, Powder Diffraction 7 (1992) 206-211.
GSAS:
[39] Determination of a molecular crystal structure by X-ray powder
diffraction on a conventional laboratory instrument, P. Lightfoot, M. Tremayne,
K.D.M. Harris & P.G. Bruce, J Chem. Soc., Chem. Commun. (1992)
1012-1016.
[=29] Determination of complex structures by combined neutron and synchrotron
X-ray powder diffraction, R.E. Morris, W.T.A. Harrison, J.M. Nicol, A.P.
Wilkinson & A.K. Cheetham, Nature 359 (1992) 519-522.
[40] Application of the combined maximum entropy and likelihood method
to the ab initio determination of an organic crystal structure from X-ray
powder diffraction data, M. Tremayne, P. Lightfoot, C. Glidewell, K.D.M.
Harris, K. Shankland, C.J. Gilmore, G. Bricogne & P.G. Bruce, J.
Mater. Chem. 2 (1992) 1301-1302.
[41] Ab initio structure determination of LiCF3SO3
from X-ray powder diffraction data using entropy maximisation and likelihood
ranking, M. Tremayne, P. Lightfoot, M.A. Mehta, P.G. Bruce, K.D.M. Harris,
K. Shankland, C.J. Gilmore & G. bricogne, J. Solid State Chem.100
(1992) 191-196.
FULLPROF:
[42] Crystal structure determination of lithium diborate hydrate LiB2O3(OH).H2O,
from X-ray powder diffraction data collected with a curved position-sensitive
detector, D. Louer, M. Louer & M. Touboul, J. Appl. Cryst. 25
(1992) 617-623. LBM software unidentified in the text:
[43] A remarkable change in framework cation position upon lithium
exchange: the crystal structure of LiMnPO4(OH), M.A.G. Aranda,
J.P. Attfield & S. Bruque, Angew. Chem., Int. Ed. Engl. 31
(1992) 1090-1092.
[44] The crystal structure of CBrF3 by high-resolution powder
neutron diffraction, A. Jouanneaux, A.N. Fitch & J.K. Cockcroft, Mol.
Phys. 1 (1992) 45-50.
[45] Ab initio determination of molecular structures using high-resolution
powder diffraction data from a laboratory X-ray source, P. Lightfoot, C.
Glidewell & P.G. Bruce, J. Mater. Chem. 2 (1992) 361-362.
[46] Determination of the structure of (VO)3(PO4)2.9H2O
by powder X-ray diffraction analysis, R.G. Teller P. Blum, E. Kostiner
& J.A. Hriljac, J. Solid State Chem. 97 (1992) 10-18.
[47] Modelling anisotropic crystallite size/microstrain in Rietveld
analysis, A. Le Bail, NIST Special Publication 846 (1992)
142-153.
[48] Extracting structure factors from powder diffraction data by iterating
full pattern profile fitting, A. Le Bail, NIST Special Publication 846
(1992) 213.
Other papers citing [1] in 1992 :
[49] CHEETHAM AK; WILKINSON AP SYNCHROTRON X-RAY AND NEUTRON-DIFFRACTION
STUDIES IN SOLID-STATE CHEMISTRY ANGEWANDTE CHEMIE-INTERNATIONAL
EDITION IN ENGLISH 1992, Vol 31, Iss 12, pp 1557-1570
[50] VAUGHAN GBM; HEINEY PA; COX DE; MCGHIE AR; JONES DR; STRONGIN
RM; CICHY MA; SMITH THE ORIENTATIONAL PHASE-TRANSITION IN SOLID BUCKMINSTERFULLERENE
EPOXIDE (C60O) CHEMICAL PHYSICS 1992, Vol 168, Iss 1, pp 185-193
[51] CROSNIER MP; DELARUE E; CHOISNET J; FOURQUET JL LI+/H+ EXCHANGE
ON LI2TITEO6 EUROPEAN JOURNAL OF SOLID STATE AND INORGANIC CHEMISTRY
1992, Vol 29, Iss 2, pp 321-332
[52] GANNE M; JOUANNEAUX A; TOURNOUX M; LEBAIL A STRUCTURE AND
PHASE-TRANSITIONS OF LOW-DIMENSIONAL THALLIUM VANADIUM BRONZE TLXV2O5 (0.44-LESS-THAN-OR-EQUAL-TO-X-LESS-THAN-OR-EQUAL-TO-0.48)
JOURNAL OF SOLID STATE CHEMISTRY 1992, Vol 97, Iss 1, pp 186-198
1993
A very dense year indeed !
Publication of the Rietveld method book [53]... You have to remember that the authors were those invited to give a talk at a workshop in Petten (1989). Few authors seriously updated their manuscript so that, few is said about the Le Bail method in that book, even in the last chapter written by A.K. Cheetham.
Publication of a paper from Juan Rodriguez-Carvajal [54] entitled "Recent advances in magnetic structure determination by neutron powder diffraction". Is discussed in part in that paper the "method of profile fitting without a structural model". It is recalled "profile matching" instead of "pattern matching" as originally in FULLPROF, and it is said that "this procedure has been used first by Taylor [55-56] and Le Bail et al. [1]. OK, should we rename that method the Taylor method ? Well, in the reference given in [54] for Taylor, only one author is listed instead of three for the 1986 paper so that one may not be sure that Rodriguez has read that paper in which it is said "In 1984, Toraya et al. [57] solved and refined a large structure by decomposing Weissenberg powder data into Fo(hkl) with the Rietveld (1969) formula, and then using single crystal programs." The fact is that Taylor et al. in 1986 and Taylor in 1987 made the same as Toraya et al. in 1984 who applied the Rietveld decomposition formula in its normal way : once (not iterated) and starting from |Fcalc| coming from the structural model. Well, every guy using the Rietveld method do that without even knowing it. And this is absolutely not the Le Bail method which iterates the Rietveld decomposition formula starting from a set of arbitrarily all equal |F|s (not from |Fcalc|).
Amazingly, I received a letter from Hideo Toraya in 1993 asking me how the LBM was working. You may read these letters (1, 2, 3). It is clear from these letters that at least the method should not be renamed the Toraya method. Moreover, Toraya developped soon a method for extracting intensities by a Whole Powder Pattern Fitting (WPPF) technique with cell constraint, fully analogous to the Pawley method - but this is another story... Then I do not see how it is possible to say that "This procedure (the LBM) has been used first by Taylor" like it is stated in the Rodriguez-Carvajal paper [54].
First publication of a structure determined by using the new software EXTRACT [58] (Baerlocher), applying the LBM.
That year, I tried to publish a paper in Nature showing that there was no need for synchrotron data for solving a structure containing 29 independent atoms, because conventional X-ray proved to be sufficient for the beta-Ba3AlF9 structure. Well the Nature editor found the paper a bit controversial and suggested to publish the results elsewhere and to resubmit a shorter paper of comments about that. I agreed and submitted the crystallography results to J. Solid State Chem. as a Letter, and it was quickly accepted [63]. The comments send to Nature were again refused. Since it was a kind of criticism of a previous Nature paper, guess what, these comments were reviewed by a co-author of the paper in question (A.K. Cheetham) who rejected them...
[53] The Rietveld method, IUCr Monographs on Crystallography - 5, R.A.
Young, Editor, Oxford Science Publication, 1993.
[54] Recent advances in magnetic structure determination by neutron
powder diffraction, J. Rodriguez-Carvajal, Physica B 192 (1993) 55-69.
[55] A study of decomposition methods for refinement of H+-ZSM5
zeolite with powder diffraction data, J.C. Taylor, S.A. Miller and D.M.
Bibby, Z. Kristallogr. 176 (1986) 183-192
[56] A comparison of the profile decomposition and Rietveld methods
for structural refinement with powder diffraction data, J.C. Taylor, Z.
Kristallogr. 181 (1987) 151-160.
[57] An application of the powder pattern fitting technique to the
structure determination of one-dimensionally oriented fibrous crystals,
H. Toraya, F. Marumo and T. Yamase, Acta Cryst. B40 (1984) 145-150
EXTRACT:
[58] Synthesis, characterization, and crystal structure of three homoleptic
copper(I) thiolates: (Cu(CH3S-))n, (C6H5)4P+]2[Cu5(CH3S-)7].C2H6O2,
and [(C3H7)4N+]2[Cu4(CH3S-)6].CH4O, M. Baumgartner, H. Schmalle and C.
Baerlocher, J. Solid State Chem. 107 (1993) 63-75.
GSAS:
[59] Li6Zr2O7, a new anion vacancy ccp based structure, determined
by ab initio powder diffraction methods, I. Abrahams, P. Lightfoot &
P.G. Bruce, J. Solid State Chem. 104 (1993) 397-403.
[60] The synthesis and ab initio structure determination of Zn4O(BO3)2,
a microporous zincoborate constructed of fused subunits of three- and five-membered
rings, W.T.A Harrison, T.H. Gier & G.D. Stucky, Angew. Chem., Int.
Ed. Engl. 32 (1993) 724-726.
ARIT:
[61] Crystal structure of a new oxyfluoride, Cd4F6O : relations to
the fluorite and the beta-Bi2O3 types, A. Aftati, J.-C. Champarnaud-Mesjard
& B. Frit, Eur. J. Solid State Inorg. Chem. 30 (1993) 1063-1073.
[62] Synthesis and crystal structure of Li8Bi2PdO10 determined ab initio
from X-ray powder diffraction data, Y. Laligant & A. Le Bail, Eur.
J. Solid State Inorg. Chem. 30 (1993) 689-698.
[63] Beta-Ba3AlF9, a complex structure determined from conventional
X-ray powder diffraction, A. Le Bail, J. Solid State Chem. 103, (1993)
287-291.
MPROF:
[64] Preparation and structure of CuII(C2H5PO3). Structural transition
between its hydrated and dehydrated forms, J. Le Bideau, B. Bujoli, A.
Jouanneaux, C. Payen, P. Palvadeau & J. Rouxel, Inorg. Chem. 32 (1993)
4617-4620.
FULLPROF:
[65] Ab initio crystal structure determination of dihydrated copper(II)
5-sulfonic-8-quinolinolato complex (form I) from X-ray powder diffraction
data. Filiations with related copper(II) sulfoxinates, S. Petit, G. Coquerel,
G. Perez, D. Louer & M. Louer, New. J. Chem. 17 (1993) 187-192.
Unnamed LBM:
[66] Synthesis and structure of the novel layered oxide BiMo2O7OH.2H2O,
J.A. Hriljac & C.C Torardi, Inorg. Chem. 32 (1993) 6003-6007.
[67] Investigation and rationalisation of hydrogen bonding patterns
in sulfonylamino compounds and related materials: crystal structure determination
of microcrystalline solids from powder X-ray diffraction data, P. Lightfoot,
M. Tremayne, C. Glidewell, K.D.M. Harris & P.G. Bruce, J. Chem. Soc.
Perkin Trans. 2 (1993) 1625-1630.
Other papers citing [1] in 1993 :
[68] EVAIN M; DENIARD P; JOUANNEAUX A; BREC R POTENTIAL
OF THE INEL X-RAY POSITION-SENSITIVE DETECTOR - A GENERAL STUDY OF THE
DEBYE-SCHERRER SETTING JOURNAL OF APPLIED CRYSTALLOGRAPHY 1993, Vol
26, pp 563-569
[69] RANGAVITTAL N; ROW TNG; RAO CNR LOCATION OF RARE-EARTH ATOMS
IN ISOMORPHOUS SERIES OF COMPLEX OXIDES BY EMPLOYMENT OF DIFFERENCE
FOURIER SYNTHESES BASED ON X-RAY-POWDER PROFILE ANALYSIS - LA3LNBACU5O13+DELTA
(LN = Y, LA, ND OR GD) AND LNBA2CU3O7+/-DELTA (LN = Y, ND, PR, GD OR DY)
JOURNAL OF APPLIED CRYSTALLOGRAPHY 1993, Vol 26, pp 363-367
[70] ESTERMANN MA; GRAMLICH V IMPROVED TREATMENT OF SEVERELY
OR EXACTLY OVERLAPPING BRAGG-REFLECTIONS FOR THE APPLICATION OF DIRECT-METHODS
TO POWDER DATA JOURNAL OF APPLIED CRYSTALLOGRAPHY 1993, Vol
26, pp 396-404
[71] MAGUER JJ; COURBION G A TRI-ALPHA-PBO2 RELATED STRUCTURE
- LI4ZNIN2F12 JOURNAL OF SOLID STATE CHEMISTRY 1993, Vol 103,
Iss 2, pp 466-471
1994
A good year for FULLPROF with nine applications [72-80] of the LBM, seven of them co-signed by D. Louër. Four applications for GSAS and one for ARIT.
The more complex structure ever solved from powder data is now La3Ti5Al15O37, with 60 independent atoms, still solved by A.K. Cheetham team [82], willing clearly to stay in pool position. From the abstract :"The applicability of powder diffraction techniques to structure determination has improved substantially in recent times, but it has only been successfully utilized in the solution of relatively simple structures of up to 29 atoms in the asymmetric unit. The structure La3Ti5Al15O37, which has 60 atoms in the asymmetric unit, has been solved using a combination of synchrotron X-ray and neutron powder diffraction. This represents a considerable advance in the size of structure that has been solved using powder diffraction techniques."
A competitor appears with a bayesian modification of the Pawley method [87].
FULLPROF:
[72] U(UO2)(PO4)2, a new mixed-valence uranium orthophosphate: ab initio
structure determination from powder diffraction data and optical and X-ray
photoelectron spectra, P. Benard, D. Louer, N. Dacheux, V. Brandel &
M. Genet, Chem. Mater. 6 (1994) 1049-1058.
[73] Powder diffraction studies in the YONO3-Y2O3 system, D. Pelloquin,
M. Louer & D. Louer, J. Solid State Chem. 112 (1994) 182-188.
[74] Synthesis, characterization, and ab initio structure determination
from powder diffraction data of a new X' form of anhydrous copper(II) 8-hydroxyquinolate
doped with amine. Modeling of the polymorphic transformation to the stable
anhydrous beta'' form, S. Petit, G. Coquerel, G. Perez, D. Louer &
M. Louer, Chem. Mater. 6 (1994) 116-121.
[75] The novel thiogermanate [(CH3)4N]4Ge4S10 with a high cubic cell
volume. Ab initio structure determination from conventional X-ray powder
diffraction, J.Y. Pivan, O. Achak, M. Louer & D. Louer, Chemistry of
Materials 6 (1994) 827.
[76] Structure of MoO3.1/2H2O by conventional X-ray powder diffraction,
P. Benard, L. Seguin, D. Louer & M. Figlarz, J. Solid State Chem.108
(1994) 170-176.
[77] Ab initio structure determination of Zr(OH)2SO4.3H2O using conventional
X-ray powder diffraction, D. Gascoigne, S.E. Tarling, P. Barnes, C.F. Pygall,
P. Benard & D. Louer, J. Appl. Cryst. 27 (1994) 399-405.
[78] An X-ray and neutron powder diffraction study of a new polymorphic
phase of copper hydroxide nitrate, N. Guillou, M. Louer & D. Louer,
J. Solid State chem. 109 (1994) 307-314.
[79] Bi7F11O5: a new ordered anion-excess fluorite-related structure
with columnar clusters, J.-P. Laval, J.-C. Champarnaud-Mesjard, B. Frit,
A. Britel & A. Mikou, Eur. J. Solid State Inorg. Chem. 31 (1994) 943-956.
[80] Crystal structure of Bi2CdO4, J.-C. Champarnaud-Mesjard, B. Frit,
A. Aftati & M. El Farissi, Eur. J. Solid State Inorg. Chem. 31 (1994)
473-486.
GSAS:
[81] An examination of the structures of iodosylbenzene (PhIO) and
the related imido compound, PhINSO2-4-Me-C6H4, by X-ray powder diffraction
and EXAFS (extendex X-ray absorption fine structure) spectroscopy, C.J.
Carmalt, J.G. Crossley, J.G. Knight, P. Lightfoot, A. Martin, M.P. Muldowney,
N.C. Norman & G. Orpen, J. Chem. Soc., Chem. Commun., (1994) 2367-2368.
[82] Determination of complex structures from powder diffraction data:
the crystal structure of La3Ti5Al15O37, R.E. Morris, J.J. Owen, J.K. Stalick
& A.K. Cheetham, J. Solid State Chem. 111 (1994) 52-57.
[83] Crystal structures of the polymer electrolytes poly(ethylene oxide)4
: MSCN (M = NH4, K), P. Lightfoot, J.L. Nowinski & P.G. Bruce, J. Am.
Chem. Soc. 116 (1994) 7469-7470.
[84] Ab initio determination of crystal structures by X-ray powder
diffraction: structure of Li29Zr9Nb3O40, P. Lightfoot, J. B. Thomson, F.J.
Little & P.G. Bruce, J. Mater. Chem. 4 (1994) 167-169.
ARIT:
[85] Ab initio crystal structure determination of VO(H2PO2)2.H2O from
X-ray and neutron powder diffraction data. A monodimensional vanadium (IV)
hypophosphite, A. Le Bail, M.D. Marcos & P. Amoros, Inorg. Chem. 33
(1994) 2607-2613.
Other papers citing [1] in 1994 :
[86] TAOUDI A; LAVAL JP; FRIT B SYNTHESIS AND CRYSTAL-STRUCTURE
OF 3 NEW RARE-EARTH OXYFLUORIDES RELATED BADDELEYITE [LNOF-LN=TM,
YB, LU] MATERIALS RESEARCH BULLETIN 1994, Vol 29, Iss 11, pp
1137-1147
[87] SIVIA DS; DAVID WIF A BAYESIAN-APPROACH TO EXTRACTING STRUCTURE-FACTOR
AMPLITUDES FROM POWDER DIFFRACTION DATA ACTA CRYSTALLOGRAPHICA SECTION
A 1994, Vol 50, pp 703-714
[88] MASCIOCCHI N; CAIRATI P; CARLUCCI L; CIANI G; MEZZA G; SIRONI
N STRUCTURAL CHARACTERIZATION OF PYRIDAZINE (PYDZ) ADDUCTS OF MX(2)
(M=MN, FE, CO, NI, CU OR ZN X=CL OR BR) - AB-INITIO X-RAY-POWDER DIFFRACTION
DETERMINATION OF POLYMERIC [NIX(2)(PYDZ)] COMPLEXES JOURNAL
OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS 1994, Iss 20, pp 3009-3015
[89] NOWINSKI JL; LIGHTFOOT P; BRUCE PG STRUCTURE OF LIN(CF3SO2)2,
A NOVEL SALT FOR ELECTROCHEMISTRY JOURNAL OF MATERIALS CHEMISTRY
1994, Vol 4, Iss 10, pp 1579-1580
[90] MASCIOCCHI N; BIANCHI R; CAIRATI P; MEZZA G; PILATI T; SIRONI
A P-RISCON - A REAL-SPACE SCAVENGER FOR CRYSTAL-STRUCTURE DETERMINATION
FROM POWDER DIFFRACTION DATA JOURNAL OF APPLIED CRYSTALLOGRAPHY
1994, Vol 27, pp 426-429
[91] RIDDELL FG; BRUCE PG; LIGHTFOOT P; ROGERSON M PROBING MOLECULAR-MOTION
BY SOLID-STATE NMR-SPECTROSCOPY AND HIGH-RESOLUTION POWDER X-RAY-DIFFRACTION
JOURNAL OF THE CHEMICAL SOCIETY-CHEMICAL COMMUNICATIONS 1994, Iss 2, pp
209-211
[92] FOURQUET JL; CALAGE Y; BENTRUP U FEALF5 - SYNTHESIS END CRYSTAL-STRUCTURE
JOURNAL OF SOLID STATE CHEMISTRY 1994, Vol 108, Iss 1, pp 189-192
1995
EXTRA is born [93]. "Extraction of structure-factor amplitudes from a powder diffraction pattern is not a straightforward procedure. Peak overlapping and background estimation are the main obstacles to the process: they may introduce strong correlations among reflection intensities and heavy errors in their estimates. The program EXTRA is described, which, on the basis of the Le Bail algorithm, is able reliably to estimate the structure-factor amplitudes in a fully automatic way." (from the paper abstract).
Even me I started to use FULLPROF which has become more user friendly than ARIT, a "dinosaurian" software. The domination of FULLPROF continues with 15 papers [94-108]. The total number of papers published about SDPD of a previously unknown structure, using the Le Bail method, is 27, almost twice the 1994 number.
Two other new names appear on the software market that include the Le Bail method : BNLFIT and AJUST.
That year occured the famous SDPD95 workshop : I am still not recognized as being an important expert in the field, since the "principal world experts" were all invited at SDPD95 but me (see 1, 2, 3). Well, is it because the organizer was co-author of a bayesian modified Pawley method presented at the workshop ? No, this is probably pure calumny. Science is not done that way. I Hope A.K. Cheetham mentioned the Le Bail method since it was used in more than 30% (or 40% ?) of the SDPDs at that date. Such is life. A book was announced to be built up from the invited speakers papers. See 2002, seven years later, for the publication of that book. Fortunately, fishes do not wait that long for being on your table, or they are frozen at least.
[93] EXTRA: A program for extracting structure factor amplitudes from powder diffraction data. Altomare A; Burla MC; Cascarano G; Giacovazzo G; Guagliardi A; Moliterni AGG; Polidori G JOURNAL OF APPLIED CRYSTALLOGRAPHY 1995, Vol 28, pp 842-846
FULLPROF:
[94] The ab initio structure determination of [(CH3)4N]2Ge4MnS10 from
X-ray powder diffraction data, O. Achak, J.Y. Pivan, M. Maunaye, M. Louër
& D. Louër, J. Alloys & Compounds 219 (1995) 111-115.
[95] Preparation and crystal structure of the deficient perovskite
LaNiO2.5, solved from neutron diffraction data, J.A. Alonso & M.-J.
Martinez-lope, J. Chem. Soc. Dalton Trans. (1995) 2819-2824.
[96] The layer structure of Zr(OH)3NO3 determined ab initio using conventional
monochromatic X-ray powder diffraction,
P. Bénard & D. Louër, J. Phys. Chem. Solids 56 (1995)
1345-1352.
[97] NaBi2Sb3O11 : an ordered structure related to the cubic Ksb03
type, J.-C. Champarnaud-Mesjard, B. Frit, A. Aftati & M. El Farissi,
Eur. J. Solid State Inorg. Chem. 32 (1995) 493-504.
[98] Ab initio structure determination of uranyl divanadate (UO2)2V2O7
from powder X-ray diffraction data, N. Tancret, S. Obbade & F. Abraham,
Eur. J. Solid State Inorg. Chem. 32 (1995) 195-207.
[99] X-Ray powder diffraction structure of triclinic C60Br24(Br2)2,
R.E. Dinnebier, P.W. Stephens, J.K. Carter, A.N. Lommen, P.A. Heiney, A.R.
McGhie, L. Brard and A.B. Smith III, J. Appl. Cryst. 28 (1995) 327-334.
[100] Chemical twinning of the rock salt structure: CaTl2O4 and Ca2Tl2O5,
the first two members of the new series CanTl2On+3, F. Goutenoire, V. Caignaert,
M. Hervieu, C. Michel and B. Raveau, J. Solid State Chem. 114 (1995) 428-434.
[101] The calcium thallate Ca3Tl2O6, third member of the series CanTl2On+3,
F. Goutenoire, V. Caignaert, M. Hervieu, C. Michel and B. Raveau, J. Solid
State Chem. 115 (1995) 508-513.
[102] The calcium thallate Ca3Tl4O9, an intergrowth of the CaTl2O4
and Ca2Tl2O5 structures, member n = 1.5 of the series CanTl2On+3, F. Goutenoire,
V. Caignaert, M. Hervieu & B. Raveau, J. Solid State Chem. 119 (1995)
134-141.
[103] Structures and thermal behaviour of Ce(IV) magnesium nitrate
hydrates, N. Guillou, M. Louer, J.-P. Auffredic and D. Louer, Eur. J. Solid
State Inorg. Chem. 32 (1995) 35-47.
[104] Synthesis and structure approach of barium-oxomercurato(II)-oxoruthenate(VI)
BaHgRuO5, Th. Hansen, A. Le Bail & Y. Laligant, J. Solid State Chem.
120 (1995) 223-230 [and Materials Sci. Forum Vols. 228-231 (1996) 729-734].
[105] Synthesis and structure of Bi3NF6: a member with n=3 of the Vernier
phases MnX2n+1, M. Hofmamn, E. Schweda, J. Strahle, J.P. Laval, B. Frit
& M.A. Estermann, J. Solid State Chem. 114 (1995) 73-78.
[106] Crystal structure of Fe4V2Mo3O20 determined from conventional
X-ray powder diffraction data, Y. Laligant, L. Permer and A. Le Bail, Eur.
J. Solid State Inorg. Chem, 32 (1995) 325-334.
[107] Structure of FeVMoO7, A. Le Bail, L. Permer & Y. Laligant,
Eur. J. Solid State Inorg. Chem. 32 (1995) 883-892.
[108] Structure determination of CuTh2(PO4)3, M. Louer, R. Brochu,
D. Louer, S. Arsalane & M. Ziyad, Acta Crystallogr. B51 (1995) 908-913.
GSAS:
[109] Structure of Zr2(WO4)(PO4)2 from powder X-ray data, cation ordering
with no superstructure, J.S.O Evans, T.A. Mary & A.W. Sleight, J. Solid
State Chem. 120 (1995) 101-104.
[110] Tetrahedral-framework lithium zinc phosphate phases: location
of light-atom positions in LiZnPO4.H2O by powder neutron diffraction and
structure determination of LiZnPO4 by ab initio methods, W.T.A. Harrison,
T.H. Gier, J.M. Nicol & G.D. Stucky, J. Solid State Chem. 114 (1995)
249-257.
[111] The Crystal Structure of Hydrated Sodium Aluminate, NaAlO2,5/4H2O,
and its Dehydration Product, J.A. Kaduk and S. Pei, J. Solid State Chem.,
115 (1995) 136-139.
[112] Cs(TiAs)O5 and Cs(TiP)O5: a disordered parent structure of ABOCO4
compounds, M. Kunz, R. Dinnebier, L.K. Cheng, E.M. McCarron, D.E. Cox,
J.B. Parise, M. Gehrke, J. Calabrese, P.W. Stephens, T. Vogt & R. Papoular,
J. Solid State Chem. 120 (1995) 290-310.
ARIT:
[113] Structure of [Pd(NH3)4]Cr2O7, Y. Laligant & A. Le Bail, Powder
Diffraction, 10 (1995) 169-164.
[114] Lu3O2F5 : a new highly densified member (n=3) of the MnX2n+1
series of fluorite-related vernier phases, J.P. Laval, A. Taoudi, A. Abaouz
& B. Frit, J. Solid State Chem. 119 (1995) 125-130.
BNLFIT (Locally modified Rietveld-Hewat program at Brookhaven National
Laboratories):
[115] Direct methods structure determination from synchrotron powder
diffraction data of a new clathrasil, TMA silicate, R.W. Broach, N.K. McGuire,
C.C. Chao & R.M. Kirchner, J. Phys. Chem. Solids 56 (1995) 1363-1368.
EXTRACT:
[116] A tangent formula derived from Patterson-function arguments.
III. Structure determination of zeolitic and layered materials from low-resolution
powder diffraction data, J. Rius, J. Sané, C. Miravitlles, H.
Gies, B. Marler & U. Oberhagemann, Acta Cryst. A51 (1995) 840-845.
EXTRACT + AJUST:
[117] Ab-initio structure determination of zeolite RUB-10 from low
resolution X-ray powder diffraction data, H. Gies & G. Rius, Z. Kristallogr.
210 (1995) 475-480.
Unnamed LBM:
[118] COS trapping by palladium pyrazolates - Addition vs. clathration,
N. Masciocchi, M. Moret, A. Sironi, G.A. Ardizzoia, S. Cenini & G.
La Monica, J. Chem. Soc., Chem. Commun. 19 (1995) 1955-1956.
[119] The structure of La4Ti9O24 from synchrotron X-ray powder diffraction,
R.E. Morris, J.J. Owen & A.K. Cheetham, J. Phys. Chem. Solids 56 (1995)
1297-1303.
[120] Solid state lithium cyanocobaltates with a high capacity for
reversible dioxygen binding - Synthesis, reactivity and structure, D. Ramprasad,
G.P. Pez, B.H. Toby, T.J. Markley & R.M. Pearlstein, J. Am. Chem. Soc.
117 (1995) 10694-10701.
Other papers citing [1] in 1995 :
[121] Altomare A; Cascarano G; Giacovazzo C; Guagliardi A; Moliterni
AGG; Burla MC; Polidori G On the number of statistically independent
observations in a powder diffraction pattern JOURNAL OF APPLIED
CRYSTALLOGRAPHY 1995, Vol 28, pp 738-744
[122] SINGH KK; PRADEEP T; SINHA APB; MORRIS DE; HRILJAC JA HMTTEF.C-60-A
2-D CLOSE-PACKED LAYERED COMPOUND OF C-60 MATERIALS RESEARCH BULLETIN
1995, Vol 30, Iss 12, pp 1547-1552
[123] PAPOULAR RJ; COX DE MODEL-FREE SEARCH FOR EXTRA-FRAMEWORK
CATIONS IN ZEOLITES USING POWDER DIFFRACTION EUROPHYSICS LETTERS
1995, Vol 32, Iss 4, pp 337-342
[124] VITALE G; BULL LM; MORRIS RE; CHEETHAM AK; TOBY BH; COE CG; MACDOUGALL
JE COMBINED NEUTRON AND X-RAY-POWDER DIFFRACTION STUDY OF ZEOLITE
CA LSX AND A H-2 NMR-STUDY OF ITS COMPLEX WITH BENZENE JOURNAL OF
PHYSICAL CHEMISTRY 1995, Vol 99, Iss 43, pp 16087-16092
[125] IDER A; LAVAL JP; CARRE J; BASTIDE JP; FRIT B STUDY
ON ELECTRICAL AND RADIOCRYSTALLOGRAPHIC PROPERTIES OF THE SOLID FLUORITE
SOLUTION IN THE SYSTEM PBF TEF4-TEO2 JOURNAL OF FLUORINE CHEMISTRY
1995, Vol 74, Iss 1, pp 141-147
[126] FINGER LW; HAZEN RM; FURSENKO BA REFINEMENT OF THE
CRYSTAL-STRUCTURE OF BASI4O9 IN THE BENITOITE FORM JOURNAL OF PHYSICS
AND CHEMISTRY OF SOLIDS 1995, Vol 56, Iss 10, pp 1389-1393
[127] FISCHER JE; BENDELE G; DINNEBIER R; STEPHENS PW; LIN CL; BYKOVETZ
N; ZHU Q STRUCTURAL-ANALYSIS OF FULLERENE AND FULLERIDE SOLIDS FROM
SYNCHROTRON X-RAY-POWDER DIFFRACTION JOURNAL OF PHYSICS AND CHEMISTRY
OF SOLIDS 1995, Vol 56, Iss 10, pp 1445-1457
[128] FINNEY JL THE COMPLEMENTARY USE OF X-RAY AND NEUTRON-DIFFRACTION
IN THE STUDY OF CRYSTALS ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL
SCIENCE 1995, Vol 51, pp 447-467
[129] IHRINGER J METHODS OF POWDER DIFFRACTION FOR THE STUDY
OF PHASE-TRANSITIONS DIFFUSIONLESS PHASE TRANSITIONS IN OXIDES AND
SOME RECONSTRUCTIVE AND MARTENSITIC PHASE TRANSITIONS 1995, Vol 101-, pp
3-39
[130] TORAYA H; TSUSAKA S QUANTITATIVE PHASE-ANALYSIS USING THE
WHOLE-POWDER-PATTERN DECOMPOSITION METHOD .1. SOLUTION FROM KNOWLEDGE OF
CHEMICAL-COMPOSITIONS JOURNAL OF APPLIED CRYSTALLOGRAPHY 1995, Vol
28, pp 392-399
[131] PARISE JB STRUCTURAL CASE-STUDIES OF INCLUSION PHENOMENA
IN ZEOLITES - XE IN RHO AND STILBENE IN ZSM-5 JOURNAL
OF INCLUSION PHENOMENA AND MOLECULAR RECOGNITION IN CHEMISTRY 1995,
Vol 21, Iss 1-4, pp 79-112
[132] ZHU Q PRESSURE-INDUCED POLYMERIZATION OF TERNARY FULLERIDE
SUPERCONDUCTORS PHYSICAL REVIEW B 1995, Vol 52, Iss 2, pp R723-R726
[133] FITCH AN HIGH-RESOLUTION POWDER DIFFRACTION STUDIES OF
POLYCRYSTALLINE MATERIALS NUCLEAR INSTRUMENTS & METHODS
IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS
1995, Vol 97, Iss 1-4, pp 63-69
[134] MAGUER JJ; COURBION G; SCHRIEWERPOTTGEN MS; FOMPEYRINE J; DARRIET
J SYNTHESIS, STRUCTURAL STUDY, AND MAGNETIC-BEHAVIOR OF A NEW CHLOROFLUORIDE
FAMILY - BA(2)M(2)F(7)CL AND BA(2)MM'F7CL (M, M'=MN2+, FE2+, CO2+, NI2+,
ZN2+) JOURNAL OF SOLID STATE CHEMISTRY 1995, Vol 115, Iss 1, pp 98-111
[135] FOURQUET JL; DUROY H; LACORRE P TL2NB2O6+X (0-LESS-THAN-OR-EQUAL-TO-X-LESS-THAN-OR-EQUAL-TO-1)
- A CONTINUOUS CUBIC PYROCHLORE TYPE SOLID-SOLUTION JOURNAL OF SOLID
STATE CHEMISTRY 1995, Vol 114, Iss 2, pp 575-584
[136] ZHU Q; COX DE; FISCHER JE PHASE-TRANSITIONS IN KC60 - DIMER
FORMATION VIA RAPID QUENCHING PHYSICAL REVIEW B 1995, Vol 51, Iss
6, pp 3966-3969
[137] THOMAS P; GOUBY I; MERCURIO D; MERLE T; FRIT B SYNTHESIS
AND STRUCTURAL CHARACTERIZATION OF CUI AND CUII-DOPED CORDIERITES
MATERIALS RESEARCH BULLETIN 1995, Vol 30, Iss 2, pp 141-148
1996
AJUST is officially born [166] : "a new recursive formula for the estimation of the integrated intensities of partially overlapping peaks, using the same philosophy as the Le Bail method, is derived. It is extremely robust, allowing to introduce zero valued initial estimates of the integrated intensities."
Abstract from R.B. Von Dreele [171] (Rietveld analysis of high pressure powder diffraction data HIGH PRESSURE RESEARCH 1996, Vol 14, Iss 4-6, pp 321-326) : "X-ray and neutron powder diffraction data obtained from samples contained within high pressure cells are generally of lower quality than data collected from samples at ambient conditions. The far smaller sample size as well as possible contamination of the pattern by the pressure cell means that Rietveld refinement techniques must be adapted to extract the maximum useful information from the data. These problems become paramount as larger structures at high pressure are attempted. Techniques such as ''leBail extraction'', ''soft restraints'' and ''rigid body refinement'' will be discussed with application to analysis of high pressure neutron powder diffraction data. "
That year, there are more papers citing [1] in reviews or for different applications (essentially for doing powder diffraction fits without structure) than SDPDs.
FULLPROF:
[138] Synthesis and ab initio structure determination from powder X-ray
diffraction data of a new metallic mixed-valence platinum-lead oxide PbPt2O4,
N. Tancret, S. Obbade, N. Bettahar & F. Abraham, J. Solid State Chem.
124 (1996) 309-318.
[139] Synthesis and characterization of two new ordered crystalline
phases close to ThF4-ZrF4 fluoride glasses. II- Crystal structure of ThZr2F12,
A.Taoudi, A. Mikou & J.-P. Laval, Eur. J. Solid State Inorg. Chem.
33 (1996) 1051-1062.
[140] Synthesis, ab initio structure determination from powder diffraction
and spectroscopic properties of a new diuranium oxide phosphate, P. Benard,
D. Louer, N. Dacheux, V. Brandel & M. Genet, Anales de Quimica 92 (1996)
79-87.
[141] Structures and phase transition of Bi2CdO2[GeO4], R.E. Dinnebier,
P.W. Stephens, S. Wies &W. Eysel, J. Solid State Chem. 123 (1996) 371-377.
[142] Structure determination of two polymorphic phases of La(NO3)3.4H2O
from X-ray powder diffraction, A.-E. Gobichon, M. Louer, J.P. Auffredic
and D. Louer, J. Solid State Chem. 126 (1996) 127-134.
[143] Copper(II)-hydroxo-oxoruthenate(VI): CuRuO2(OH)4 - Ab initio
structure determination by X-ray powder diffraction, Th. Hansen, Materials
Science Forum Vols. 228-231 (1996) 723-728.
[144] Structure determination of zeta-Fe2N by neutron and synchrotron
powder diffraction, D. Rechenbach & H. Jacobs, J. Alloys & Compounds
235 (1996) 15-22
GSAS:
[145] Synthesis, structure and characterization of uranium(IV) phenyl
phosphonate, U(O3PC6H5)2, and uranium(IV) pyro phosphate, UP2O7, A. Cabeza,
M.A.G. Aranda, F.M. Cantero, D. Lozano, M. Martinez-Lara & S. Bruque,
J. Solid State Chem. 121 (1996) 181-189.
[146] Ab initio powder structure determination and thermal behavior
of a new lead(II) phenylphosphonate, Pb(O3PC6H5) Cabeza A. Aranda MAG.
Martinezlara M. Bruque S. Sanz J. Acta Crystallographica - Section B, Structural
Science. 52(1996) 982-988.
[147] Synthesis and structure determination of BaHg2O2Cl2 by powder
X-ray diffraction, W.T.A. Harrison, L.M. Liu & A.J. Jacobson, Angew.
Chem. Int. Ed. Engl. 35 (1996) 625-627.
[148] Structure determination of a complex tubular uranyl phenylphosphonate,
(UO2)3(HO3PC6H5)2(O3PC6H5)2.H2O, from conventional X-ray powder diffraction
data, D.M. Poojary, A. Cabeza, M.A.G. Aranda, S. Bruque & A. Clearfield,
Inorg. Chem. 35 (1996) 1468-1473.
[149] Ab initio structure solution of a novel aluminium methylphosphonate
from laboratory X-ray powder diffraction data, L.J. Sawers, V.J. Carter,
A.R. Armstrong, P.G. Bruce, P.A. Wright & B.E. Gore, J. Chem. Soc.
Dalton Trans. 14 (1996) 3159-3161.
MPROF:
[150] Low temperature crystal structures of globular organic molecules,
A.J. Mora & A.N. Fitch, Materials Science Forum Vols. 228-231 (1996)
863-868.
[151] Structural Determination of (CH3)2SBr2 using the Swiss-Norwegian
beam line at ESRF, A.J. Mora, A.N. Fitch, P.N. Gates & A. Finch, Materials
Science Forum Vols. 228-231 (1996) 601-606.
????????:
[152] PHASE TRANSITIONS IN 2-BROMONAPHTHALENE - THE STRUCTURE OF THE
LOW TEMPERATURE PHASE FROM X-RAY POWDER DIFFRACTION, Sane J. Rius J. Louer
D. Chanh NB. Journal of Physics & Chemistry of Solids. 57(1996) 1251-1257.
Unnamed LBM :
[153] Powder-diffraction solutions of the crystal structure of [Pd(NH3)4]C2O4,
L.A. Solovyov, M.L. Blochina, S.D. Kirik, A.I. Blochin & M.G. Derikova,
Powder Diffraction 11 (1996) 13-16.
[154] Structure transformation in diamine-dichloro-Palladium (II) studied
by X-ray powder diffraction, L.A. Solovyov, S.D. Kirik, I.S. Yakimov, M.L.
Blokhina & A.I. Blokhin, Materials Science Forum Vols. 228-231 (1996)
705-710.
Other papers citing [1] in 1996 :
[155] Parise JB; Wang YB; Gwanmesia GD; Zhang JZ; Sinelnikov Y; Chmielowski
J; Weidner DJ; Liebermann RC The symmetry of garnets on the pyrope
(Mg3Al2Si3O12) majorite (MgSiO3) join GEOPHYSICAL RESEARCH LETTERS
1996, Vol 23, Iss 25, pp 3799-3802
[156] Altomare A; Carrozzini B; Giacovazzo C; Guagliardi A; Moliterni
AGG; Rizzi R Solving crystal structures from powder data .1. The
role of the prior information in the two-stage method JOURNAL OF
APPLIED CRYSTALLOGRAPHY 1996, Vol 29, pp 667-673
[157}Altomare A; Foadi J; Giacovazzo C; Guagliardi A; Moliterni AGG
Solving crystal structures from powder data .2. Pseudotranslational symmetry
and powder-pattern decomposition JOURNAL OF APPLIED CRYSTALLOGRAPHY
1996, Vol 29, pp 674-681
[158] Evans JSO; Mary TA; Vogt T; Subramanian MA; Sleight AW
Negative thermal expansion in ZrW2O8 and HfW2O8 CHEMISTRY OF MATERIALS
1996, Vol 8, Iss 12, pp 2809-2823
[159] Zhu Q; Li L; Masteller MS; DelCorso GJ An increase of structural
order parameter in Fe-Co-V soft magnetic alloy after thermal aging
APPLIED PHYSICS LETTERS 1996, Vol 69, Iss 25, pp 3917-3919
[160] Louer D Powder X-ray diffraction 100 years after
Roentgen JOURNAL DE PHYSIQUE IV 1996, Vol 6, Iss C4, pp 57-69
[161] Brown CM; Cristofolini L; Kordatos K; Prassides K; Bellavia C;
Gonzalez R; KeshavarzK M; Wudl F; Cheetham AK; Zhang JP; Andreoni W; Curioni
A; [162] Fitch AN; Pattison P On the crystal structure of azafullerene
(C59N)(2) CHEMISTRY OF MATERIALS 1996, Vol 8, Iss 11, pp 2548-&
[163] Harris KDM; Tremayne M Crystal structure determination
from powder diffraction data CHEMISTRY OF MATERIALS 1996, Vol 8,
Iss 11, pp 2554-2570
[164] Oszlanyi G; Bortel G; Faigel G; Granasy L; Bendele GM; Stephens
PW; Forro L Single C-C bond in (C-60)(2)(2-) PHYSICAL REVIEW
B 1996, Vol 54, Iss 17, pp 11849-11852
[165] Mora AJ; Fitch AN; Cole M; Goyal R; Jones RH; Jobic H; Carr SW
The structure of the calcined aluminophosphate ALPO(4)-5 determined by
high-resolution X-ray and neutron powder diffraction
JOURNAL OF MATERIALS CHEMISTRY 1996, Vol 6, Iss 11, pp 1831-1835
[166] Rius J; Sane J; Miravitlles C; Amigo JM; Reventos MM; Louer D
Determination of crystal structures from powder diffraction data by direct
methods: Extraction of integrated intensities from partially overlapping
Bragg reflections ANALES DE QUIMICA 1996, Vol 92, Iss 4, pp 223-227
[167] Ferrari M; Lutterotti L; Matthies S; Polonioli P; Wenk HR
New opportunities in the texture and stress field by the whole pattern
analysis EUROPEAN POWDER DIFFRACTION: EPDIC IV, PTS 1 AND 2
1996, Vol 228, pp 83-88
[168] Cox DE; Papoular RJ Structure refinement with synchrotron
data: R-factors, errors and significance tests EUROPEAN POWDER
DIFFRACTION: EPDIC IV, PTS 1 AND 2 1996, Vol 228, pp 233-238
[169] Brown CM; Beer E; Bellavia C; Cristofolini L; Gonzalez R; Hanfland
M; Hausermann D; KeshavarzK M; Kordatos K; Prassides K; Wudl F
Effects of pressure on the azafullerene (C59N)(2) molecular solid to 22
GPa JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 1996, Vol 118, Iss 36,
pp 8715-8716
[170] Altomare A; Burla MC; Cascarano G; Giacovazzo C; Guagliardi A;
Moliterni AGG; Polidori G Early finding of preferred orientation:
Applications to direct methods JOURNAL OF APPLIED CRYSTALLOGRAPHY
1996, Vol 29, pp 341-345
[171] VonDreele RB Rietveld analysis of high pressure powder
diffraction data HIGH PRESSURE RESEARCH 1996, Vol 14, Iss 4-6, pp
321-326
[172] Subramanian MA; Toby BH; Ramirez AP; Marshall WJ; Sleight AW;
Kwei GH Colossal magnetoresistance without Mn3+/Mn4+ double exchange
in the stoichiometric pyrochlore Tl2Mn2O7 SCIENCE 1996, Vol 273, Iss 5271,
pp 81-84
[173] Poojary DM; Clearfield A Crystal structures of metallo-organo
phosphates from X-ray powder diffraction data JOURNAL OF ORGANOMETALLIC
CHEMISTRY 1996, Vol 512, Iss 1-2, pp 237-242
[174] Roberts MA; Sankar G; Thomas JM; Jones RH; Du H; Chen J; Pang
W; Xu R Synthesis and structure of a layered titanosilicate catalyst
with five-coordinate titanium NATURE 1996, Vol 381, Iss 6581, pp
401-404
[175] Giacovazzo C Direct methods and powder data: State of the
art and perspectives ACTA CRYSTALLOGRAPHICA SECTION A 1996, Vol 52,
pp 331-339
[176] Aliyu HN; Gillard RD; Honeywill JD; Lightfoot P; Rocha J
Adducts between silver nitrate and di-iodo compounds, and some analogues
Source: POLYHEDRON 1996, Vol 15, Iss 14, pp 2409-2419
[177] Eylem C; Hriljac JA; Ramamurthy V; Corbin DR; Parise JB
Structure of a zeolite ZSM-5-bithiophene complex as determined by high-resolution
synchrotron X-ray powder diffraction CHEMISTRY OF MATERIALS 1996,
Vol 8, Iss 4, pp 844-849
[178] Langford JI; Louer D Powder diffraction REPORTS
ON PROGRESS IN PHYSICS 1996, Vol 59, Iss 2, pp 131-234
[179] Eylem C; Hung YC; Ju HL; Kim JY; Green DC; Vogt T; Hriljac JA;
Eichhorn BW; Greene RL; SalamancaRiba L Unusual metal-insulator transitions
in the LaTi1-xVxO3 perovskite phases CHEMISTRY OF MATERIALS 1996,
Vol 8, Iss 2, pp 418-427
[180] Castro S; Gayoso M; Rivas J; Greneche JM; Mira J; Rodriguez C
Structural and magnetic properties of barium hexaferrite nanostructured
particles prepared by the combustion method JOURNAL OF MAGNETISM AND MAGNETIC
MATERIALS 1996, Vol 152, Iss 1-2, pp 61-69
1997
The LBM saga is not finished yet. Last but not least : EXTRA, introduced in 1995 and a few years later into the EXPO package shows here its first applications in association with SIRPOW. One day, probably in 1995 (?) I was phoned by C. Giacovazzo who asked me in an excellent french what was the difference between the LBM and the "pattern matching" in FULLPROF. Well, I replied "nothing", this is the same and unique Le Bail method. He was surprised since there was no reference into the FULLPROF manual. I said that I was surprised too. Such is life.The Italian team worked a lot about the Le Bail method, and published many papers in the Journal of Applied Crystallography, mainly.
Some teams may use combinations (or successive use) of two software (EXTRA/FULLPROF), even sometimes Pawley and Le Bail method in the same manuscript (EXTRA/ALLHKL).
Special applications of the Le Bail method have extended to orientation distribution functions (ODF) or maximum entropy techniques for years already. In a 1997 paper by R.B. Von Dreele (J. Appl. Cryst. 30, 1997, 517-525) one can read in the introduction: "A new approach has recently been described by Wenk, Matthies & Lutterotti (1994) and Matthies, Lutterotti & Wenk (1997), in which fitting of neutron TOF diffraction data by the Le Bail modification (Le Bail, Duroy & Fourquet, 1988) of the Rietveld method is coupled with a procedure, WIMV (Matthies & Vinel, 1982), having some features in common with maximum-entropy techniques, to produce a description of the ODF. However, simultaneous evaluation of the crystal structure and the texture is precluded in this procedure by use of the Le Bail method in the Rietveld refinement.".
FULLPROF:
[181] Structure of Na2Ca(HPO4)2 determined ab initio from conventional
powder diffraction data, Ben Chaabane T., Smiri-Dogguy L., Laligant Y.
& Le Bail A. Eur. J. Solid State Inorg. Chem. 34 (1997) 937-946.
[182] Mo3O5(OH)2(AsO4)2: A new solid with a structure related to beta-VOPO4
Kasthuri Rangan K. Joubert 0. Verbaere A Tournoux M. Gopalakrishnan J.
Eur. J. Solid State Inorg. Chem. 34 (1997) 511-525.
[183] Ab initio structure determination of two polymorphs of cyclopentadienylrubidium
in a single powder pattern Dinnebier RE. Olbrich F. Vansmaalen S. Stephens
PW. Acta Crystallographica - Section B53(1997) 153-158.
[184] Structure determination of uranium halogenide phosphates UXPO4.2H2O
(X = Cl, Br) from powder diffraction data Benard-Rocherullé P. Louër
M. Louër D. Dacheux N. Brandel V. Genet M. J Solid State Chem. 132
(1997) 315-322.
[185] Chimie douce synthesis and ab initio structure determination
of (H3O)Yb3F10, H2O - A diamond type stacking of UOA([8]) Maguer JJ. Crosnier-Lopez
MP. Courbion G. Journal of Solid State Chemistry. 128 (1997) 42-51.
[186] Crystal structure of K-Alumina : an X-ray powder diffraction,
TEM and NMR study B. Ollivier, R. Retoux, P. Lacorre, D. Massiot and G.
Férey, J. Mater. Chem. 7 (1997) 1049-1056.
[187] Crystal structure of the tetrapolyvanadate Fe2V4O13, L. Permer
and Y. Laligant, European Journal of Solid State & Inorganic Chemistry.
34 (1997) 41-52.
[188] Crystal structure, including H-atom positions, of Ti2O(PO4)2(H2O)2
determined from synchrotron X-ray and neutron powder data Salvado M.A.
Pertierra P. Garcia-Granda S. Garcia J.R. Fernandez-Diaz M.T. and Dooryhee
E., Eur. J. Solid State Inorg. Chem. 34 (1997) 1237-1247.
[189] Ab initio powder structure determination of CaBa2(HPO4)2(H2PO4)2,
a new phosphate with a M(TO4)4 chain structure Toumi M. Chabchoub S. Smiri-Dogguy
L. and Laligant L. Eur. J. Solid State Inorg. Chem. 34 (1997) 1249-1257.
EXTRA/FULLPROF:
[190] Structure of zeolitic K2TiSi3O9.H2O determined ab initio from
powder diffraction data, M.S. Dadachov and A. Le Bail, Eur. J. Solid State
& Inorg. Chem. 34, 1997, 381-390.
EXTRA:
[191] Phosphorus(V) nitride imide HP4N7 - Synthesis from a momecular
precursor and structure determination with synchrotron powder diffraction,
Horstmann S. Irran E. Schnick W., Angewandte Chemie. International Ed.
in English. 36 (1997) 1992-1994.
[192] Structure and luminescent properties of Y17.33(BO3)4(B2O5)2O16,
Lin JH. Zhou S. Yang LQ. Yao GQ. Su MZ. You
LP., J. Solid State Chem. 134 (1997) 158-163.
[193] Ferroelectric tungsten trioxide, Woodward, P.M., Sleight, A.W.
and Vogt, T., J. Solid State Chem. 131 (1997) 9-17
[194] Ab initio structure determination from X-ray powder diffraction
data of tetraaquabismuth(III) triflate obtained from the nonahydrate, Louer
M. Leroux C. Dubac J., Chemistry of Materials 9 (1997)
3012-3016.
EXTRA/ALLHKL;
[195] Crystal structure determination of barium oxalate, BaC2O4-3.5H2O/D2O,
Neder R. Burghammer M. Schulz H. Christensen AN. Krane HG. Bell AMT. Hewat
AW. Altomare A., Z. Kristallogr. 212(1997) 305-309.
MPROF:
[196] Structure of ITQ-4, a new pure silica polymorph containing large
pores and a large void volume, P.A. Barrett, M.A. Camblor, A. Corma, R.H.
Jones, and L.A. Villaescusa,n Chem Mater, 1997, 9, 1713-1715
AJUST:
[197] Structural analysis of zirconium hydroxide nitrate monohydrates
by X-ray powder diffraction, P. Bénard-Rocherullé, J. Rius
and D. Louër, J. Solid State Chem. 128 (1997) 295-304.
[198] Phase transition in tris(3,5-dimethylpyrazol-1-YL)methane - The
structure of the high-temperature phase from X-ray powder diffraction,
Ochando LE. Rius J. Louer D. Claramunt RM. Lopez
C. Elguero J. Amigo JM., Acta Crystallogr. B53 (1997)
939-944.
[199] Chiral molecular alloys - Patterson-search structure determination
of (L)-carvone and (DL)-carvone from X-ray powder diffraction data at 218
K, Sane J. Rius J. Calvet T. Cuevasdiarte MA., Acta Crystallogr. B53 (1997)
702-707.
[200] Ab initio structure solution from X-ray powder data at moderate
resolution - Crystal structure of a microporous layer silicate, Vortmann
S. Rius J. Siegmann S. Gies H., Journal of Physical Chemistry B. 101(1997)
1292-1297.
ARIT:
[201] Structure of BaGaF5.2H2O from conventional and synchrotron powder
diffraction data, Jouanneaux A. & Le Bail A., Eur. J. Solid State Inorg.
Chem. 34 (1997) 925-936.
GSAS:
[202] Synthesis and X-ray powder structures of three novel titanium
phosphate compounds, Poojary D.M. Bortun A.I. & Clearfield A., J. Solid
State Chem. 132 (1997) 213-223.
Unamed LBM :
[203] Synthesis and structure of CaBiO2Cl, and SrBiO2Cl - new distorted
variants of the Sillen X1 structure, Fray SM. Milne CJ. Lightfoot P., J.
Solid State Chem. 128 (1997) 115-120.
Other papers citing [1] in 1997 :
[204] Grosse-Kunstleve RW; McCusker LB; Baerlocher C Powder diffraction
data and crystal chemical information combined in an automated structure
determination procedure for zeolites JOURNAL OF APPLIED CRYSTALLOGRAPHY
1997, Vol 30, pp 985-995
[205] Bortel G; Pekker S; Granasy L; Faigel G; Oszlanyi G Molecular
and crystal structure of the AC(60) (A = K, Rb) JOURNAL OF PHYSICS
AND CHEMISTRY OF SOLIDS 1997, Vol 58, Iss 11, pp 1893-1896
[206] Masciocchi N; Sironi A The contribution of powder diffraction
methods to structural co-ordination chemistry JOURNAL OF THE CHEMICAL
SOCIETY-DALTON TRANSACTIONS 1997, Iss 24, pp 4643-+
[207] Corradi E; Masciocchi N; Palyi G; Ugo R; Vizi-Orosz A; Zucchi
C; Sironi A Synthesis and X-ray powder diffraction characterization
of (OC)(2)RhCl2Rh(cod) (cod = cycloocta-1,4-diene) JOURNAL OF THE
CHEMICAL SOCIETY-DALTON TRANSACTIONS 1997, Iss 24, pp 4651-4655
[208] Poojary DM; Zhang BL; Clearfield A Pillared layered metal
phosphonates. Syntheses and X-ray powder structures of copper and zinc
alkylenebis(phosphonates) JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
1997, Vol 119, Iss 51, pp 12550-12559
[209] Attfield MP; Weigel SJ; Cheetham AK On the nature of nonframework
cations in a zeolitic deNO(x) catalyst - A synchrotron X-ray diffraction
and ESR study of Cu-ferrierite JOURNAL OF CATALYSIS 1997, Vol 172,
Iss 2, pp 274-280
[210] Zhao YS; Von Dreele RB; Weidner DJ; Schiferl D P-V-T
data of hexagonal boron nitride hBN and determination of pressure and temperature
using thermoelastic equations of state of multiple phases HIGH
PRESSURE RESEARCH 1997, Vol 15, Iss 6, pp 369-386
[211] Dadachov MS; Rocha J; Ferreira A; Lin Z; Anderson MW Ab
initio structure determination of layered sodium titanium silicate containing
edge-sharing titanate chains (AM-4) Na-3(Na,H)Ti2O2[Si2O6]. 2.2H(2)O
CHEMICAL COMMUNICATIONS 1997, Iss 24, pp 2371-2372
[212] Barnes CM; Bohle DS; Dinnebier RE; Madsen SK; Stephens PW
Structural and spectroscopic studies of two phases of the organometallic
chain polymer [Ru-2{mu(2):mu(2):eta(2)-O2PMe2}(2)(CO)(4)](n)
INORGANIC CHEMISTRY 1997, Vol 36, Iss 25, pp 5793-5798
[213] Pavese A; Ferraris G; Prencipe M; Ibberson R Cation site
ordering in phengite 3T from the Dora-Maira massif (western Alps): a variable-temperature
neutron powder diffraction study EUROPEAN JOURNAL OF MINERALOGY
1997, Vol 9, Iss 6, pp 1183-1190
[214] Fowkes AJ; Fox JM; Henry PF; Heyes SJ; Rosseinsky MJ Expanded
close-packed fullerides: The reactivity of Na2C60 with ammonia JOURNAL
OF THE AMERICAN CHEMICAL SOCIETY 1997, Vol 119, Iss 43, pp 10413-10423
[215] Poojary DM; Clearfield A Application of X-ray powder diffraction
techniques to the solution of unknown crystal structures
ACCOUNTS OF CHEMICAL RESEARCH 1997, Vol 30, Iss 10, pp 414-422
[216] VonDreele RB Quantitative texture analysis by Rietveld
refinement JOURNAL OF APPLIED CRYSTALLOGRAPHY 1997, Vol 30, pp 517-525
[217] Dinnebier RE; Pink M; Sieler J; Stephens PW Novel alkali-metal
coordination in phenoxides: Powder diffraction results on C6H5OM (M=Li,
Na, K, Rb, Cs) INORGANIC CHEMISTRY 1997, Vol 36, Iss 16, pp
3398-3401
[218] Roca M; Marcos MD; Amoros P; Alamo J; BeltranPorter A; BeltranPorter
D Synthesis and crystal structure of a novel lamellar barium derivative:
Ba(VOPO4)(2). 4H(2)O. Synthetic pathways for layered oxovanadium phosphate
hydrates M(VOPO4)(2). nH(2)O INORGANIC CHEMISTRY 1997, Vol
36, Iss 16, pp 3414-3421
[219] LeBail A; Jouanneaux A A qualitative account for anisotropic
broadening in whole-powder-diffraction-pattern fitting by second-rank tensors
JOURNAL OF APPLIED CRYSTALLOGRAPHY 1997, Vol 30, pp 265-271
[220] Andreev YG; Lightfoot P; Bruce PG A general Monte Carlo
approach to structure solution from powder-diffraction data: Application
to poly(ethylene oxide)(3):LiN(SO2CF3)(2) JOURNAL OF APPLIED CRYSTALLOGRAPHY
1997, Vol 30, pp 294-305
[221] Dinnebier RE; Olbrich F; Bendele GM Cyclopentadienylcaesium
by high-resolution X-ray powder diffraction ACTA CRYSTALLOGRAPHICA
SECTION C-CRYSTAL STRUCTURE COMMUNICATIONS 1997, Vol 53, pp 699-701
[222] Carrozzini B; Giacovazzo C; Guagliardi A; Rizzi R; Burla MC;
Polidori G Solving crystal structures from powder data .3. The use
of the probability distributions for estimating the vertical bar F vertical
bar's JOURNAL OF APPLIED CRYSTALLOGRAPHY 1997, Vol 30, pp 92-97
[223] Pavese A; Catti M; Ferraris G; Hull S P-V equation of state
of portlandite, Ca(OH)(2), from powder neutron diffraction data
PHYSICS AND CHEMISTRY OF MINERALS 1997, Vol 24, Iss 2, pp 85-89
[224] Fei YW; Bertka CM; Finger LW High-pressure iron sulfur
compound, Fe3S2, and melting relations in the Fe-FeS system SCIENCE
1997, Vol 275, Iss 5306, pp 1621-1623
[225] Muralidharan G; Richardson JW; Epperson JE; Chen H Lattice
parameters and compositions of gamma and gamma' during coarsening in the
Ni-Al-Si system: A neutron powder diffraction study SCRIPTA MATERIALIA
1997, Vol 36, Iss 5, pp 543-549
[226] Kuntscher CA; Bendele GM; Stephens PW Alkali-metal
stoichiometry and structure of K4C60 and Rb4C60 PHYSICAL REVIEW B
1997, Vol 55, Iss 6, pp R3366-R3369
[227] Matthies S; Lutterotti L; Wenk HR Advances in texture analysis
from diffraction spectra JOURNAL OF APPLIED CRYSTALLOGRAPHY 1997,
Vol 30, pp 31-42
[228] Battle PD; Green MA; Laskey NS; Millburn JE; Murphy L; Rosseinsky
MJ; Sullivan SP; Vente JF Layered Ruddlesden-Popper manganese oxides:
Synthesis and cation ordering CHEMISTRY OF MATERIALS 1997, Vol 9,
Iss 2, pp 552-559
[229] Mauricot R; Gareh J; Evain M Crystal structure of Ce2O2.5S,
an oxidized form of Ce2O2S, from neutron and X-ray powder diffraction
ZEITSCHRIFT FUR KRISTALLOGRAPHIE 1997, Vol 212, Iss 1, pp 24-28
[230] Radaelli PG; Cox DE; Marezio M; Cheong SW Charge, orbital,
and magnetic ordering in La0.5Ca0.5MnO3 PHYSICAL REVIEW B 1997, Vol
55, Iss 5, pp 3015-3023
[231] Prassides K; Vavekis K; Kordatos K; Tanigaki K; Bendele GM; Stephens
PW Loss of cubic symmetry in low-temperature Na2RbC60 JOURNAL
OF THE AMERICAN CHEMICAL SOCIETY 1997, Vol 119, Iss 4, pp 834-835
[232] Lutterotti L; Matthies S; Wenk HR; Schultz AS; Richardson JW
Combined texture and structure analysis of deformed limestone from time-of-flight
neutron diffraction spectra JOURNAL OF APPLIED PHYSICS 1997, Vol
81, Iss 2, pp 594-600
[233] Bohle DS; Dinnebier RE; Madsen SK; Stephens PW Characterization
of the products of the heme detoxification pathway in malarial late trophozoites
by X-ray diffraction JOURNAL OF BIOLOGICAL CHEMISTRY 1997, Vol 272,
Iss 2, pp 713-716
[234] Zhao YS; VonDreele RB; Shankland TJ; Weidner DJ; Zhang JZ; Wang
YB; Gasparik T Thermoelastic equation of state of jadeite NaAlSi2O6:
An energy-dispersive Reitveld refinement study of low symmetry and multiple
phases diffraction GEOPHYSICAL RESEARCH LETTERS 1997, Vol 24, Iss
1, pp 5-8
[235] Evans JSO; Hu Z; Jorgensen JD; Argyriou DN; Short S; Sleight
AW Compressibility, phase transitions, and oxygen migration in zirconium
tungstate, ZrW2O8 SCIENCE 1997, Vol 275, Iss 5296, pp 61-65
SDPD Round Robin. In spite of all the above publications, that round robin has shown that SDPD is still not routine !
ECM-18 : Trends in SDPD.
The Dupont Powder Challenge has been won.
Papers citing [1] in 1998 :
[236] Poojary DM; Zhang BL; Clearfield A Synthesis and
structures of barium arylbisphosphonates derived from X-ray powder data
ANALES DE QUIMICA-INTERNATIONAL EDITION 1998, Vol 94, Iss 6, pp 401-405
[237] Masciocchi N; Ardizzoia GA; LaMonica G; Maspero A; Sironi A
Unique formation of a crystal phase containing cyclic oligomers and helical
polymers of the same monomeric fragment ANGEWANDTE CHEMIE-INTERNATIONAL
EDITION 1998, Vol 37, Iss 24, pp 3366-3369
[238] Andreev YG; Bruce PG Solving crystal structures of
molecular solids without single crystals: a simulated annealing approach
JOURNAL OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS 1998, Iss 24, pp 4071-4080
[239] Villaescusa LA; Barrett PA; Camblor MA Calcination of octadecasil:
Fluoride removal and symmetry of the pure SiO2 host CHEMISTRY OF
MATERIALS 1998, Vol 10, Iss 12, pp 3966-3973
[240] Louer D Advances in powder diffraction analysis
ACTA CRYSTALLOGRAPHICA SECTION A 1998, Vol 54, pp 922-933
[241] Danielson E; Devenney M; Giaquinta DM; Golden JH; Haushalter
RG; McFarland EW; Poojary DM; Reaves CM; Weinberg WH; Di Wu X
X-ray powder structure of Sr2CeO4: a new luminescent material discovered
by combinatorial chemistry JOURNAL OF MOLECULAR STRUCTURE 1998, Vol
470, Iss 1-2, pp 229-235
[242] Cabeza A; Aranda MAG; Bruque S Structural complexity
and metal coordination flexibility in two acetophosphonates JOURNAL
OF MATERIALS CHEMISTRY 1998, Vol 8, Iss 11, pp 2479-2485
[243] Villaescusa LA; Barrett PA; Camblor MA Synthesis
and structure of ITQ-9: a new microporous SiO2 polymorph CHEMICAL
COMMUNICATIONS 1998, Iss 21, pp 2329-2330
[244] Meden A Crystal structure solution from powder diffraction
data - State of the art and perspectives CROATICA CHEMICA ACTA 1998,
Vol 71, Iss 3, pp 615-633
[245] Bataille T; Benard-Rocherulle P; Louer D Thermal behavior
of zinc phenylphosphonate and structure determination of gamma-Zn2P2O7
from X-ray powder diffraction data JOURNAL OF SOLID STATE CHEMISTRY
1998, Vol 140, Iss 1, pp 62-70
[246] Dinnebier RE; Pink M; Sieler J; Norby P; Stephens PW Powder
structure solutions of the compounds potassium phenoxide-phenol: C6H5OK
. xC(6)H(5)OH (x = 2, 3) INORGANIC CHEMISTRY 1998, Vol
37, Iss 19, pp 4996-5000
[247] Knudsen KD; Pattison P; Fitch AN; Cernik RJ Solution
of the crystal and molecular structure of complex low-symmetry organic
compounds with powder diffraction techniques: Fluorescein diacetate
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 1998, Vol 37, Iss 17, pp 2340-2343
[248] Diaz-Cabanas MJ; Barrett PA; Camblor MA Synthesis
and structure of pure SiO2 chabazite: the SiO2 polymorph with the lowest
framework density
Source: CHEMICAL COMMUNICATIONS 1998, Iss 17, pp
1881-1882
[249] Chu F; Zhu Q; Thoma DJ; Mitchell TE Structural and
defect analysis of V-alloyed C15 NbCr2 from high resolution synchrotron
X-ray powder diffraction PHILOSOPHICAL MAGAZINE A-PHYSICS OF CONDENSED
MATTER STRUCTURE DEFECTS AND MECHANICAL PROPERTIES 1998, Vol 78, Iss 3,
pp 551-565
[250] Poojary DM; Bortun AI; Bortun LN; Trobajo C; Garcia JR; Clearfield
A Synthesis and characterization of a porous zirconium arsenate,
[Zr-3(AsO4)(4)(H2O)(2)]. 2H(2)O MICROPOROUS AND MESOPOROUS
MATERIALS 1998, Vol 20, Iss 1-3, pp 77-85
[251] Cabeza A; Aranda MAG; Bruque S; Poojary DM; Clearfield A; Sanz
J Aluminum phenylphosphonates: A fertile family of compounds
INORGANIC CHEMISTRY 1998, Vol 37, Iss 17, pp 4168-4178
[252] Alconchel S; Sapina F; Beltran D; Beltran A Chemistry
of interstitial molybdenum ternary nitrides MnMo3N (M = Fe, Co, n = 3;
M = Ni, n = 2) JOURNAL OF MATERIALS CHEMISTRY 1998, Vol 8, Iss 8,
pp 1901-1909
[253] Barrett PA; Diaz-Cabanas MJ; Camblor MA; Jones RH Synthesis
in fluoride and hydroxide media and structure of the extra-large pore pure
silica zeolite CIT-5 JOURNAL OF THE CHEMICAL SOCIETY-FARADAY TRANSACTIONS
1998, Vol 94, Iss 16, pp 2475-2481
[254] Altomare A; Burla MC; Camalli M; Carrozzini B; Cascarano G; Giacovazzo
C; Guagliardi A; Moliterni AGG; Polidori G; Rizzi R Toward
EXPO: From the powder pattern to the crystal structure EPDIC
5, PTS 1 AND 2 1998, Vol 278-2, pp 284-288
[255] Altomare A; Giacovazzo C; Guagliardi A; Moliterni AGG Solving
crystal structures from powder data: The use of a molecular fragment
EPDIC 5, PTS 1 AND 2 1998, Vol 278-2, pp 289-293
[256] Wilde L; Trommer J; Steinike U; Worzala H; Wolf GU
Ab initio structure analysis of VO(HPO4) EPDIC 5, PTS
1 AND 2 1998, Vol 278-2, pp 704-707
[257] Chen CY; Finger LW; Medrud RC; Kibby CL; Crozier PA; Chan IY;
Harris TV; Beck LW; Zones SI Synthesis, structure, and physicochemical
and catalytic characterization of the novel high-silica large-pore zeolite
SSZ-42 CHEMISTRY-A EUROPEAN JOURNAL 1998, Vol 4, Iss 7, pp
1312-1323
[258] Margadonna S; Brown CM; Dennis TJS; Lappas A; Pattison P; Prassides
K; Shinohara H Crystal structure of the higher fullerene C-84 CHEMISTRY
OF MATERIALS 1998, Vol 10, Iss 7, pp 1742-+
[259] Attfield MP; Sleight AW Exceptional negative thermal
expansion in AlPO4-17 CHEMISTRY OF MATERIALS 1998, Vol 10, Iss 7, pp 2013-2019
[260] Allen KM; Dennis TJS; Rosseinsky MJ; Shinohara H
Isomer specific intercalation chemistry: Potassium insertion into the D-2
and D-2d isomers of C-84 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
1998, Vol 120, Iss 27, pp 6681-6689
[261] Dahlke P; Henry PF; Rosseinsky MJ Cs4C60: single
phase synthesis and orientational order JOURNAL OF MATERIALS
CHEMISTRY 1998, Vol 8, Iss 7, pp 1571-1576
[262] Schmidt MW; Finger LW; Angel RJ; Dinnebier RE Synthesis,
crystal structure, and phase relations of AlSiO3OH, a high-pressure hydrous
phase AMERICAN MINERALOGIST 1998, Vol 83, Iss 7-8, pp 881-888
[263] Oszlanyi G; Baumgartner G; Faigel G; Granasy L; Forro L
Polymer-monomer phase transition in Na4C60 PHYSICAL REVIEW B 1998, Vol
58, Iss 1, pp 5-7
[264] Trommer J; Worzala H; Rabe S; Schneider M Structural investigations
of ammonium vanadium diphosphates by X-ray powder diffraction
JOURNAL OF SOLID STATE CHEMISTRY 1998, Vol 136, Iss 2, pp 181-192
[265] Barrett PA; Camblor MA; Corma A; Jones RH; Villaescusa LA
Synthesis and structure of as-prepared ITQ-4, a large pore pure silica
zeolite: The role and location of fluoride anions and organic
cations JOURNAL OF PHYSICAL CHEMISTRY B 1998, Vol 102, Iss 21, pp
4147-4155
[266] Aranda MAG; Losilla ER; Cabeza A; Bruque S Effective
correction of peak asymmetry: Rietveld refinement of high-resolution synchrotron
powder data of Li-1.8(Hf1.2Fe0.8)(PO4)(3) JOURNAL OF
APPLIED CRYSTALLOGRAPHY 1998, Vol 31, pp 16-21
[267]) Altomare A; Foadi J; Giacovazzo C; Moliterni AGG; Burla MC;
Polidori G Solving crystal structures from powder data. IV.
The use of patterson information for estimating the vertical bar F vertical
bar's JOURNAL OF APPLIED CRYSTALLOGRAPHY 1998, Vol 31, pp 74-77
[268] Masciocchi N; Cairati P; Sironi A Crystal structure determination
of molecular compounds from conventional powder diffraction data: Trimeric
silver(I) 3,5-dimethylpyrazolate POWDER DIFFRACTION 1998, Vol
13, Iss 1, pp 35-40
[269] Beck HP; Schramm M; Haberkorn R; Dinnebier R; Stephens PW
Synthesis and crystal structure of Rb6Pb5Cl16 ZEITSCHRIFT FUR
ANORGANISCHE UND ALLGEMEINE CHEMIE 1998, Vol 624, Iss 3, pp 393-398
[270] Attfield MP; Sleight AW Strong negative thermal expansion
in siliceous faujasite CHEMICAL COMMUNICATIONS 1998, Iss 5, pp 601-602
[271] Zhao J; Glazounov AE; Zhang QM; Toby B Neutron diffraction
study of electrostrictive coefficients of prototype cubic phase of relaxer
ferroelectric PhMg1/3 Nb-2/3 O-3 APPLIED PHYSICS LETTERS 1998, Vol
72, Iss 9, pp 1048-1050
[272] Parise JB; Theroux B; Li R; Loveday JS; Marshall WG; Klotz S
Pressure dependence of hydrogen bonding in metal deuteroxides: a neutron
powder diffraction study of Mn(OD)(2) and beta-Co(OD)(2.) PHYSICS
AND CHEMISTRY OF MINERALS 1998, Vol 25, Iss 2, pp 130-137
[273] Sankar G; Wyles JK; Jones RH; Thomas JM; Catlow CRA; Lewis DW;
Clegg W; Coles SJ; Teat SJ Structure of templated microcrystalline
DAF-5 (Co0.28Al0.72PO4C10H20N2) determined by synchrotron-based diffraction
methods CHEMICAL COMMUNICATIONS 1998, Iss 1, pp 117-118
SDPD discussion list open in March 1999. Three years later, 320 subscribers and 762 emails distributed.
Contribution to the Kunming (China) workshop, in July, on structure determination and refinement from powder data.
Contribution to IUCr XVIIIth, Glasgow, Scotland : Workshop on structure solution from powder data. The Practice of "|Fobs|" Extraction from Powder Diffraction Data.
SDPD Internet Course open in September 1999.
EXPO is born [299].
Papers citing [1] in 1999 :
[274] Shen CP; Chacon LC; Rosov N; Elder SH; Allman JC; Bartlett N
The structure of R-NiF3, and synthesis, and magnetism of new R(3)over-bar
(MNiF6)-Ni-II-F-IV (M = Fe, Co, Cu, Zn), and (MNiF4)-Ni-II-F-II (M = Co,
Cu) COMPTES RENDUS DE L ACADEMIE DES SCIENCES SERIE II FASCICULE
C-CHIMIE 1999, Vol 2, Iss 11-13, pp 557-563
[275] Petrykin VV; Berastegui P; Kakihana M Crystal structure
of Nd2BaCu3O7.3 determined from X-ray and neutron powder diffraction data
CHEMISTRY OF MATERIALS 1999, Vol 11, Iss 12, pp 3445-3451
[276] Von Dreele RB Combined Rietveld and stereochemical restraint
refinement of a protein crystal structure JOURNAL OF APPLIED CRYSTALLOGRAPHY
1999, Vol 32, pp 1084-1089
[277] Engel GE; Wilke S; Konig O; Harris KDM; Leusen FJJ PowderSolve
- a complete package for crystal structure solution from powder diffraction
patterns JOURNAL OF APPLIED CRYSTALLOGRAPHY 1999, Vol 32, pp 1169-1179
[278] Handrosch C; Dinnebier R; Bondarenko G; Bothe E; Heinemann F;
Kisch H Charge-transfer complexes of metal dithiolenes XXVI Azobipyridinium
dications and radical monocations as accepters EUROPEAN JOURNAL OF
INORGANIC CHEMISTRY 1999, Iss 8, pp 1259-1269
[279] El-Himri A; Cairols M; Alconchel S; Sapina F; Ibanez R; Beltran
D; Beltran A Freeze-dried precursor-based synthesis of new
vanadium-molybdenum oxynitrides JOURNAL OF MATERIALS CHEMISTRY 1999,
Vol 9, Iss 12, pp 3167-3171
[280] Kongshaug KO; Fjellvag H; Lillerud KP Layered aluminophosphates
I. Crystal structure of two novel layered aluminophosphates solved ab initio
from powder diffraction data MICROPOROUS AND MESOPOROUS MATERIALS
1999, Vol 32, Iss 1-2, pp 17-28
[281] Guillou N; Ferey G Hydrothermal synthesis and structural
characterization of two layered diamine pentamolybdates: (C2H10N2) [Mo5O16]
and (C4H12N2) [Mo5O16] JOURNAL OF SOLID STATE CHEMISTRY 1999, Vol
147, Iss 1, pp 240-246
[282] Plevert J; Yamamoto K; Chiari G; Tatsumi T UTM-1: An eight-membered
ring zeolite with the basic building chains of the MFI topology
JOURNAL OF PHYSICAL CHEMISTRY B 1999, Vol 103, Iss 41, pp 8647-8649
[283] Barrett PA; Diaz-Cabanas MJ; Camblor MA Crystal structure
of zeolite MCM-35 (MTF) CHEMISTRY OF MATERIALS 1999, Vol 11, Iss
10, pp 2919-2927
[284] Putz H; Schon JC; Jansen M Combined method for ab initio
structure solution from powder diffraction data JOURNAL OF APPLIED
CRYSTALLOGRAPHY 1999, Vol 32, pp 864-870
[285] Altomare A; Giacovazzo C; Guagliardi A; Moliterni AGG; Rizzi
R Solving crystal structures from powder data. V. Located molecular
fragment and powder-pattern decomposition JOURNAL OF APPLIED CRYSTALLOGRAPHY
1999, Vol 32, pp 963-967
[286] Hong SB; Kim SH; Kim YG; Kim YC; Barrett PA; Camblor MA
Synthesis of microporous gallosilicates with the CGS topology JOURNAL
OF MATERIALS CHEMISTRY 1999, Vol 9, Iss 10, pp 2287-2289
[287] Clarke SJ; Michie CW; Rosseinsky MJ Structure of Zr2ON2
by neutron powder diffraction: The absence of nitride-oxide ordering
JOURNAL OF SOLID STATE CHEMISTRY 1999, Vol 146, Iss 2, pp 399-405
[288] Mora AJ; Fitch AN The low-temperature structures of bicyclo[3.3.1]nonan-9-one
and 3-azabicyclo[3.2.2]nonane ZEITSCHRIFT FUR KRISTALLOGRAPHIE 1999,
Vol 214, Iss 8, pp 480-485
[289] Dinnebier RE; Von Dreele R; Stephens PW; Jelonek S; Sieler J
Structure of sodium para-hydroxybenzoate, NaO2C-C6H4OH by powder diffraction:
application of a phenomenological model of anisotropic peak width
JOURNAL OF APPLIED CRYSTALLOGRAPHY 1999, Vol 32, pp 761-769
[290] Pavese A; Ferraris G; Pischedda V; Mezouar M Synchrotron
powder diffraction study of phengite 3T from the Dora-Maira massif: P-V-T
equation of state and petrological consequences PHYSICS AND
CHEMISTRY OF MINERALS 1999, Vol 26, Iss 6, pp 460-467
[291] Kongshaug KO; Fjellvag H; Lillerud KP Layered aluminophosphates
II. Crystal structure and thermal behaviour of the layered aluminophosphate
UiO-15 and its high temperature variants JOURNAL OF MATERIALS
CHEMISTRY 1999, Vol 9, Iss 7, pp 1591-1598
[292] Comotti A; Simonutti R; Catel G; Sozzani P Isolated
linear alkanes in aromatic nanochannels CHEMISTRY OF MATERIALS 1999,
Vol 11, Iss 6, pp 1476-1483
[293] Tribaudino M; Benna P; Bruno E; Hanfland M High pressure
behaviour of lead feldspar (PbAl2Si2O8) PHYSICS AND CHEMISTRY
OF MINERALS 1999, Vol 26, Iss 5, pp 367-374
[294] Muller J; Ruschewitz U; Indris O; Hartwig H; Stahl W Structure
of ammonia trimethylalane (Me3Al-NH3): Microwave spectroscopy, X-ray powder
diffraction, and ab initio calculations JOURNAL OF THE AMERICAN
CHEMICAL SOCIETY 1999, Vol 121, Iss 19, pp 4647-4652
[295] Wagner P; Zones SI; Davis ME; Medrud RC SSZ-35 and SSZ-44:
Two related zeolites containing pores circumscribed by ten- and eighteen-membered
rings ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 1999, Vol 38, Iss 9,
pp 1269-1272
[296] Schmidt MU; Dinnebier RE Combination of energy minimizations
and rigid-body Rietveld refinement: the structure of 2,5-dihydroxybenzo[de]benzo[4,5]imidazo[2,1-a]isoquinolin-7-one
JOURNAL OF APPLIED CRYSTALLOGRAPHY 1999, Vol 32, pp 178-186
[297] Zhao YS; Von Dreele RB; Weidner DJ Correction of diffraction
optics and P-V-T determination using thermoelastic equations of state of
multiple phases JOURNAL OF APPLIED CRYSTALLOGRAPHY 1999, Vol 32,
pp 218-225
[298] Stephens PW Phenomenological model of anisotropic
peak broadening in powder diffraction JOURNAL OF APPLIED CRYSTALLOGRAPHY
1999, Vol 32, pp 281-289
[299] Altomare A; Burla MC; Camalli M; Carrozzini B; Cascarano GL;
Giacovazzo C; Guagliardi A; Moliterni AGG; Polidori G; Rizzi R EXPO:
a program for full powder pattern decomposition and crystal structure solution
JOURNAL OF APPLIED CRYSTALLOGRAPHY 1999, Vol 32, pp 339-340
[300] Wessels T; Baerlocher C; McCusker LB Single-crystal-like
diffraction data from polycrystalline materials SCIENCE 1999,
Vol 284, Iss 5413, pp 477-479
[301] Cristofolini L; Ricco M; De Renzi R NMR and high-resolution
x-ray diffraction evidence for an alkali-metal fulleride with large interstitial
clusters: Li12C60 PHYSICAL REVIEW B 1999, Vol 59, Iss 13, pp
8343-8346
[302] Pavese A; Ferraris G; Pischedda V; Ibberson R Tetrahedral
order in phengite 2M(1) upon heating, from powder neutron diffraction,
and thermodynamic consequences EUROPEAN JOURNAL OF MINERALOGY
1999, Vol 11, Iss 2, pp 309-320
[303] Kariuki BM; Belmonte SA; McMahon MI; Johnston RL; Harris KDM;
Nelmes RJ A new approach for indexing powder diffraction data based
on whole-profile fitting and global optimization using a genetic algorithm
JOURNAL OF SYNCHROTRON RADIATION 1999, Vol 6, pp 87-92
[304] Poojary DM; Zhang BL; Clearfield A Syntheses and X-ray
powder structures of two zinc propylenebis(phosphonates) CHEMISTRY
OF MATERIALS 1999, Vol 11, Iss 2, pp 421-426
[305] Dinnebier RE; Schneider M; van Smaalen S; Olbrich F; Behrens
U Disorder determined by high-resolution powder diffraction: structure
of pentamethylcyclopentadienyllithium ACTA CRYSTALLOGRAPHICA
SECTION B-STRUCTURAL SCIENCE 1999, Vol 55, pp 35-44
[306] McCusker LB; Von Dreele RB; Cox DE; Louer D; Scardi P
Rietveld refinement guidelines JOURNAL OF APPLIED CRYSTALLOGRAPHY
1999, Vol 32, pp 36-50
[307] Rius J; Miravitlles C; Gies H; Amigo JM A tangent formula derived
from Patterson-function arguments. VI. Structure solution from powder patterns
with systematic overlap JOURNAL OF APPLIED CRYSTALLOGRAPHY
1999, Vol 32, pp 89-97
[308] Lappas A; Brown CM; Kordatos K; Suard E; Tanigaki K; Prassides
K Neutron diffraction study of the polymeric structure of Na2RbC60
JOURNAL OF PHYSICS-CONDENSED MATTER 1999, Vol 11, Iss 2, pp 371-381
[309] Cabeza A; Aranda MAG; Bruque S New lead triphosphonates:
synthesis, properties and crystal structures JOURNAL OF MATERIALS
CHEMISTRY 1999, Vol 9, Iss 2, pp 571-578
[310] Vaughan GBM; Mora AJ; Fitch AN; Gates PN; Muir AS
A high resolution powder X-ray diffraction study of the products of reaction
of dimethyl sulfide with bromine; crystal and molecular structures
of (CH3)(2)SBrn (n = 2, 2.5 or 4) JOURNAL OF THE CHEMICAL SOCIETY-DALTON
TRANSACTIONS 1999, Iss 1, pp 79-84
Papers citing [1] in 2000 :
[311] El Feki H; Naddari T; Savariault JM; Ben Salah A Localization
of potassium in substituted lead hydroxyapatite: Pb9.30K0.60(PO4)(6)(OH)(1.20)
by X-ray diffraction SOLID STATE SCIENCES 2000, Vol 2, Iss 7, pp 725-733
[312] Radosavljevic I; Howard JAK; Sleight AW Synthesis and structure
of two new bismuth cadmium vanadates, BiCdVO5 and BiCd2VO6, and structures
of BiCa2AsO6 and BiMg2PO6 INTERNATIONAL JOURNAL OF INORGANIC MATERIALS
2000, Vol 2, Iss 6, pp 543-550
[313] Gaudin E; Petricek V; Boucher F; Taulelle F; Evain M Structures
and phase transitions of the A(7)PSe(6) (A = Ag, Cu) argyrodite-type ionic
conductors. III. alpha-Cu7PSe6 ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL
SCIENCE 2000, Vol 56, pp 972-979
[314] Mansourian-Hadavi N; Ko D; Mason TO; Poeppelmeier KR Quadruple
and quintuple perovskite-layered cuprates (NdDyBa2-xSrxCu2+yTi2-yO11-delta
and NdDyCaBa2-xSrxCu2+yTi3-yO14-delta): Their defect chemistry and electrical
properties JOURNAL OF SOLID STATE CHEMISTRY 2000, Vol 155, Iss 1,
pp 216-224
[315] Plevert J; Kubota Y; Honda T; Okubo T; Sugi Y GUS-1: a
mordenite-like molecular sieve with the 12-ring channel of ZSM-12
PHYSICAL CHEMISTRY CHEMICAL PHYSICS 2000, Vol 2, Iss 23, pp 2363-2364
[316] Nyman M; Bonhomme F; Teter DM; Maxwell RS; Gu BX; Wang LM; Ewing
RC; Nenoff TM Integrated experimental and computational methods for
structure determination and characterization of a new, highly stable cesium
silicotitanate phase, Cs2TiSi6O15 (SNL-A) CHEMISTRY OF MATERIALS
2000, Vol 12, Iss 11, pp 3449-3458
[317] Palombari R; Andersen AMK; Andersen IGK; Andersen EK Cathodic
insertion of ions in tungsten(VI) oxide from aqueous media JOURNAL
OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS 2000, Iss 22, pp 4028-4031
[318] Hutson ND; Yang RT Structural effects on adsorption
of atmospheric gases in mixed Li,Ag-X-zeolite AICHE JOURNAL 2000,
Vol 46, Iss 11, pp 2305-2317
[319] El-Himri A; Sapina F; Ibanez R; Beltran A Synthesis of
new vanadium-chromium and chromium-molybdenum oxynitrides by direct ammonolysis
of freeze-dried precursors JOURNAL OF MATERIALS CHEMISTRY 2000, Vol
10, Iss 11, pp 2537-2541
[320] Hutson ND; Reisner BA; Yang RT; Toby BH Silver ion-exchanged
zeolites Y, X, and low-silica X: Observations of thermally induced cation/cluster
migration and the resulting effects on the equilibrium adsorption
of nitrogen CHEMISTRY OF MATERIALS 2000, Vol 12, Iss 10, pp 3020-3031
[321] Stetzer MR; Heiney PA; Stephens PW; Dinnebier RE; Zhu Q; McGhie
AR; Strongin RM; Brandt BM; Smith AB Structure and phase transitions
of the 6,6-cyclopropane isomer of C61H2 PHYSICAL REVIEW B 2000, Vol 62,
Iss 14, pp 9305-9316
[322] Zhao YS; Lawson AC; Zhang JZ; Bennett BI; Von Dreele RB
Thermoelastic equation of state of molybdenum PHYSICAL REVIEW B 2000,
Vol 62, Iss 13, pp 8766-8776
[323] Toby BH; Khosrovani N; Dartt CD; Davis ME; Parise JB Structure-directing
agents and stacking faults in the CON system: a combined crystallographic
and computer simulation study MICROPOROUS AND MESOPOROUS MATERIALS
2000, Vol 39, Iss 1-2, pp 77-89
[324] Kongshaug KO; Fjellvag H; Lillerud KP Layered aluminophosphates
III. Crystal structure and thermal properties of the novel layered aluminophosphate
UiO-18 MICROPOROUS AND MESOPOROUS MATERIALS 2000, Vol 38, Iss 2-3,
pp 311-321
[325] Takenobu T; Chen XH; Iwasa Y; Mitani T Synthesis
and structure of BaxC70 MOLECULAR CRYSTALS AND LIQUID CRYSTALS 2000,
Vol 340, pp 617-622
[326] Friedel P; Bergmann J Molecular modelling features
in XPD Rietveld refinement of organic structures EUROPEAN POWDER
DIFFRACTION, PTS 1 AND 2 2000, Vol 321-3, pp 34-39
[327] Pagola S; Stephens PW Towards the solution of organic crystal
structures by powder diffraction EUROPEAN POWDER DIFFRACTION, PTS
1 AND 2 2000, Vol 321-3, pp 40-45
[328] Izumi F; Ikeda T A Rietveld-analysis program RIETAN-98
and its applications to zeolites EUROPEAN POWDER DIFFRACTION, PTS
1 AND 2 2000, Vol 321-3, pp 198-203
[329] Trommer J; Schneider M; Worzala H; Fitch AN Structure determination
of CaH2P2O7 from in situ powder diffraction data EUROPEAN POWDER
DIFFRACTION, PTS 1 AND 2 2000, Vol 321-3, pp 374-379
[330] Bataille T; Auffredic JP; Louer D A powder diffraction
study of the crystal structure and the dehydration process of yttrium potassium
oxalate tetrahydrate EUROPEAN POWDER DIFFRACTION, PTS 1 AND
2 2000, Vol 321-3, pp 976-981
[331] Wilde I; Worzala H; Steinike U; Wolf GU NH4(VO2)(2)PO(4)x3H(2)O
- ab initio structure analysis and its transformation during the ammoxidation
of toluene EUROPEAN POWDER DIFFRACTION, PTS 1 AND 2 2000, Vol 321-3,
pp 982-987
[332] Brunelli M; Fitch AN; Mora AJ Crystal structures of bicyclic
organic molecules EUROPEAN POWDER DIFFRACTION, PTS 1 AND 2
2000, Vol 321-3, pp 1092-1097
[333] Andersen AMK; Norby P Ab initio structure determination
and Rietveld refinement of a high-temperature phase of zirconium hydrogen
phosphate and a new polymorph of zirconium pyrophosphate from in situ temperature-resolved
powder diffraction data ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL
SCIENCE 2000, Vol 56, pp 618-625
[334] Kongshaug KO; Fjellvag H; Lillerud KP Synthesis and ab-initio
structure determination of organically templated magnesium phosphates from
powder diffraction data JOURNAL OF MATERIALS CHEMISTRY 2000, Vol
10, Iss 8, pp 1915-1920
[335] Carlson S High-pressure studies of the cubic to rhombohedral
transformation in NbO2F JOURNAL OF APPLIED CRYSTALLOGRAPHY
2000, Vol 33, pp 1175-1176
[336] Altomare A; Giacovazzo C; Guagliardi A; Moliterni AGG; Rizzi
R; Werner PE New techniques for indexing: N-TREOR in EXPO JOURNAL
OF APPLIED CRYSTALLOGRAPHY 2000, Vol 33, pp 1180-1186
[337] Woodward PM; Cox DE; Moshopoulou E; Sleight AW; Morimoto S
Structural studies of charge disproportionation and magnetic order in CaFeO3
PHYSICAL REVIEW B 2000, Vol 62, Iss 2, pp 844-855
[338] Chaplais G; Le Bideau J; Leclercq D; Mutin H; Vioux A Novel
aluminium phenyl, benzyl, and bromobenzylphosphonates: structural characterisation
and hydration-dehydration reactions JOURNAL OF MATERIALS CHEMISTRY
2000, Vol 10, Iss 7, pp 1593-1601
[339] Kongshaug KO; Fjellvag H; Lillerud KP Synthesis and crystal
structure of the hydrated magnesium diphosphate Mg2P2O7 . 3.5H(2)O and
its high temperature variant Mg2P2O7 . H2O SOLID STATE SCIENCES
2000, Vol 2, Iss 2, pp 205-214
[340] Kutzke H; Klapper H; Hammond RB; Roberts KJ Metastable
beta-phase of benzophenone: independent structure determinations via X-ray
powder diffraction and single crystal studies ACTA CRYSTALLOGRAPHICA SECTION
B-STRUCTURAL SCIENCE 2000, Vol 56, pp 486-496
[341] Matijasic A; Paillaud JL; Patarin J Synthesis, characterization
and structure determination of Mu-15: a new fluorogallophosphate with fluoride
as a specific template of the D4R units JOURNAL OF MATERIALS
CHEMISTRY 2000, Vol 10, Iss 6, pp 1345-1351
[342] Carlson S; Andersen AMK High-pressure transitions of trigonal
alpha-ZrMo2O8 PHYSICAL REVIEW B 2000, Vol 61, Iss 17, pp 11209-11212
[343] Park JH; Woodward PM Synthesis, structure and optical properties
of two new Perovskites: Ba2Bi2/3TeO6 and Ba3Bi2TeO9 INTERNATIONAL
JOURNAL OF INORGANIC MATERIALS 2000, Vol 2, Iss 1, pp 153-166
[344] Bellitto C; Federici F; Altomare A; Rizzi R; Ibrahim SA
Synthesis, X-ray powder structure, and magnetic properties of the new,
weak ferromagnet iron(II) phenylphosphonate INORGANIC CHEMISTRY
2000, Vol 39, Iss 8, pp 1803-1808
[345] Pagola S; Stephens PW; Bohle DS; Kosar AD; Madsen SK The
structure of malaria pigment beta-haematin NATURE 2000, Vol 404,
Iss 6775, pp 307-310
[346] Pattison P; Knudsen KD; Fitch AN Accuracy of molecular
structures determined from high-resolution powder diffraction. The example
of m-fluorobenzoic acid JOURNAL OF APPLIED CRYSTALLOGRAPHY 2000,
Vol 33, pp 82-86
[347] Smith LJ; Eckert H; Cheetham AK Site preferences in the
mixed cation zeolite, Li,Na-chabazite: A combined solid-state NMR and neutron
diffraction study JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 2000,
Vol 122, Iss 8, pp 1700-1708
[348] Roisnel T; Nunez P; Tressaud A; Molins E; Rodriguez-Carvajal
J Investigation of K2MnF5 . H2O by neutron diffraction JOURNAL OF
SOLID STATE CHEMISTRY 2000, Vol 150, Iss 1, pp 104-111
[349] Bortun AI; Bortun LN; Poojary DM; Xiang OY; Clearfield A
Synthesis, characterization, and ion exchange behavior of a framework potassium
titanium trisilicate K2TiSi3O9 . H2O and its protonated phases
CHEMISTRY OF MATERIALS 2000, Vol 12, Iss 2, pp 294-305
[350] Benard-Rocherulle P; Louer D Ab initio structure determination
of new mixed zirconium hydroxide nitrates ZrM(OH)(2)(NO3)(3) (M = K, Rb)
from X-ray powder diffraction data JOURNAL OF SOLID STATE CHEMISTRY
2000, Vol 149, Iss 1, pp 167-175
[351] Lanning OJ; Habershon S; Harris KDM; Johnston RL; Kariuki BM;
Tedesco E; Turner GW Definition of a 'guiding function' in global
optimization: a hybrid approach combining energy and R-factor in structure
solution from powder diffraction data CHEMICAL PHYSICS LETTERS
2000, Vol 317, Iss 3-5, pp 296-303
[352] Ardizzoia GA; LaMonica G; Maspero A; Moret M; Masciocchi N
Pyrazolato metal complexes: Synthesis, characterization and X-ray crystal
structures of polynuclear organometallic Re-Mn derivatives EUROPEAN JOURNAL
OF INORGANIC CHEMISTRY 2000, Iss 1, pp 181-187
A visit at the Web of Science in April 2001 gave 293 citations for paper [1] (see the list) (some citations may be negative...) and 441 for the Juan Rodriguez-Carvajal paper [42]. Most review papers about SDPD are citing reference [1]. You may be sure that papers using the LBM do not cite all the right reference [1]. Just like for the Rietveld method, the LBM can be used wihout any reference, or giving the software reference only (FULLPROF, GSAS, etc), or just telling "the structure factor amplitudes were extracted by the Le Bail method".
Altomare et al. [353] propose a modification of the Le Bail method. To become the Altomare method ? See APD-III and her abstract (.doc file).
[353] Altomare, A., Giacovazzo, C., Moliterni, A. G. G. & Rizzi,
R. (2001). A random procedure for the decomposition of a powder pattern
in EXPO. J. Appl.
Cryst. 34, 704-709.
This above paper follows a long list of publications dealing (sometimes
especially) with the Le Bail method and produced by the Italian team since
1995. Few new SDPDs in these papers, but a lot of theory and investigations
for improving software like EXTRA, SIRPOW and then EXPO :
- Altomare, A., Burla, M. C., Camalli, M., Carrozzini, B., Cascarano,
G. L., Giacovazzo, C., Guagliardi, A., Moliterni, A. G. G., Polidori, G.
& Rizzi, R. (1999). EXPO: a program for full powder pattern decomposition
and crystal structure solution. J. Appl. Cryst. 32, 339-340.
- Altomare, A., Giacovazzo, C., Guagliardi, A., Moliterni, A. G. G.
& Rizzi, R. (1999). Solving crystal structures from powder data. V.
Located molecular fragment and powder-pattern decomposition. J. Appl. Cryst.
32, 963-967.
- Altomare, A., Foadi, J., Giacovazzo, C., Moliterni, A. G. G., Burla,
M. C. & Polidori, G. (1998). Solving Crystal Structures from Powder
Data. IV. The Use of the Patterson Information for Estimating the |F|'s.
J. Appl. Cryst. 31, 74-77.
- Altomare, A., Carrozzini, B., Giacovazzo, C., Guagliardi, A., Moliterni,
A. G. G. & Rizzi, R. (1996). Solving Crystal Structures from Powder
Data. I. The Role of the Prior Information in the Two-Stage Method. J.
Appl. Cryst. 29, 667-673.
- Altomare, A., Foadi, J., Giacovazzo, C., Guagliardi, A. & Moliterni,
A. G. G. (1996). Solving Crystal Structures from Powder Data. II. Pseudotranslational
Symmetry and Powder-Pattern Decomposition. J. Appl. Cryst. 29, 674-681.
- Altomare, A., Burla, M. C., Cascarano, G., Giacovazzo, C., Guagliardi,
A., Moliterni, A. G. G. & Polidori, G. (1995). EXTRA: a program for
extracting structure-factor amplitudes from powder diffraction data. J.
Appl. Cryst. 28, 842-846.
- Altomare, A., Cascarano, G., Giacovazzo, C., Guagliardi, A., Moliterni,
A. G. G., Burla, M. C. & Polidori, G. (1995). On the Number of Statistically
Independent Observations in a Powder Diffraction Pattern. J. Appl. Cryst.
28, 738-744.
Papers citing [1] in 2001 :
[354] Berti G , A method for routine comparison of XRPD measurements,
POWDER DIFFRACTION 2001, Vol 16, Iss 1, pp 1-5
[355] Ciurchea D Structure and superconducting characteristics
of a defective (Bi1.6Pb0.4)(Sr1.8Ba0.2)(Ca1.96Lu0.04)Cu3Oy superconductor
INTERNATIONAL JOURNAL OF MODERN PHYSICS B 2001, Vol 15, Iss 2, pp 157-165
[356] Pavese A; Diella V; Levy D; Hanfland M Synchrotron X-ray powder
diffraction study of natural P2/n-omphacites at high-pressure conditions
PHYSICS AND CHEMISTRY OF MINERALS 2001, Vol 28, Iss 1, pp 9-16
[357] Kongshaug KO; Fjellvag H; Lillerud KF The synthesis and
characterization of a new manganese phosphate templated by piperazine
JOURNAL OF SOLID STATE CHEMISTRY 2001, Vol 156, Iss 1, pp 32-36
[358] Losilla ER; Cabeza A; Bruque S; Aranda MAG; Sanz J; Iglesias
JE; Alonso JA Syntheses, structures, and thermal expansion of germanium
pyrophosphates JOURNAL OF SOLID STATE CHEMISTRY 2001, Vol 156, Iss
1, pp 213-219
[359] Knapp M; Ruschewitz U Structural phase transitions in CaC2
CHEMISTRY-A EUROPEAN JOURNAL 2001, Vol 7, Iss 4, pp 874-880
[360] Zhukov SG; Chernyshev VV; Babaev EV; Sonneveld EJ; Schenk H
Application of simulated annealing approach for structure solution of molecular
crystals from X-ray laboratory powder data ZEITSCHRIFT FUR
KRISTALLOGRAPHIE 2001, Vol 216, Iss 1, pp 5-9
[361] Brunelli M; Fitch AN; Jouanneaux A; Mora AJ Crystal and
molecular structures of norbornene ZEITSCHRIFT FUR KRISTALLOGRAPHIE
2001, Vol 216, Iss 1, pp 51-55
[362] Mazza D; Ronchetti S; Delmastro A; Tribaudino M; Kockelmann W
Silica-free mullite structures in the Al2O3-B2O3-P2O5 ternary system CHEMISTRY
OF MATERIALS 2001, Vol 13, Iss 1, pp 103-108
[363] Markvardsen AJ; David WIF; Johnson JC; Shankland K A probabilistic
approach to space-group determination from powder diffraction data ACTA
CRYSTALLOGRAPHICA SECTION A 2001, Vol 57, pp 47-54
[364] Dertinger A; Dinnebier RE; Kreyssig A; Stephens PW; Pagola S;
Loewenhaupt M; van Smaalen S; Braun HF Microscopic changes in HoNi2B2C
due to thermal treatment and its effect on superconductivity - art. no.
184518 PHYSICAL REVIEW B 2001, Vol 6318, Iss 18, pp 4518-+
[365] Lu GL; Chen LS; Wang LB; Yuan HT Study on the phase composition
of Mg2-xMxNi (M=Al, Ti) alloys JOURNAL OF ALLOYS AND COMPOUNDS 2001, Vol
321, Iss 1, pp L1-L4
[366] Pertierra P; Salvado MA; Garcia-Granda S; Garcia JR; Bortun AI;
Bortun LN; Clearfield A Synthesis and structural study of K2PbSi3O9 . H2O
with the structure of kostylevite MATERIALS RESEARCH BULLETIN 2001, Vol
36, Iss 3-4, pp 717-725
[367} Ikeda T; Akiyama Y; Izumi F; Kiyozumi Y; Mizukami F; Kodaira
T Crystal structure of a helix layered silicate containing tetramethylammonium
ions in sodalite-like cages CHEMISTRY OF MATERIALS 2001, Vol 13, Iss 4,
pp 1286-1295
[368] Tribaudino M; Prencipe M The compressional behavior of P4/n vesuvianite
CANADIAN MINERALOGIST 2001, Vol 39, pp 145-151
[369] Tanahashi Y; Nakamura H; Yamazaki S; Kojima Y; Saito H; Ida T;
Toraya H Ab initio structure determination of monoclinic 2,2-dihydroxymethylbutanoic
acid from synchrotron radiation powder diffraction data: combined use of
direct methods and the Monte Carlo method ACTA CRYSTALLOGRAPHICA SECTION
B-STRUCTURAL SCIENCE 2001, Vol 57, pp 184-189
[370] Ciraolo MF; Hanson JC; Norby P; Grey CP An in-situ X-ray powder
diffraction study of the adsorption of hydrofluorocarbons in zeolites
JOURNAL OF PHYSICAL CHEMISTRY B 2001, Vol 105, Iss 13, pp 2604-2611
[371] Vanhoyland G; Bouree F; Van Bael MK; Mullens J; Van Poucke LC
Structure determination and refinement of acid strontium oxalate from X-ray
and neutron powder diffraction JOURNAL OF SOLID STATE CHEMISTRY 2001, Vol
157, Iss 2, pp 283-288
[372] Meignen V; Deudon C; Lafond A; Boyer-Candalen C; Meerschaut A
Single crystal structure and magnetic properties of a new quaternary samarium-titanium
oxyselenide: Sm3Ti3Se2O8 SOLID STATE SCIENCES 2001, Vol 3, Iss 1-2, pp
189-194
[373] Laval JP; Taoudi A; Abaouz A Characterization and defect structure
of anion-excess fluorite-related phases in LnOF-LnF(3) systems (Ln = Nd,
Sm, Eu, Gd): From isolated defect clustering to "vernier" modulated phases
JOURNAL OF SOLID STATE CHEMISTRY 2001, Vol 157, Iss 1, pp 134-143
[374] Porob-DG; Row-TNG Ab initio structure determination via powder
X-ray diffraction PROCEEDINGS OF THE INDIAN ACADEMY OF SCIENCES CHEMICAL
SCIENCES. 113 (2001) 435-444.
[375] Coste S; Kopnin E; Evain M; Jobic S; Payen C; Brec R Na3Cr2P3S12
and K3Cr2P3S12: Two new one-dimensional thiophosphate compounds with a
novel structure JOURNAL OF SOLID STATE CHEMISTRY 2001, Vol 162, Iss 2,
pp 195-203
[376] Nair S; Tsapatsis M; Toby BH; Kuznicki SM A study of heat-treatment
induced framework contraction in strontium-ETS-4 by powder neutron diffraction
and vibrational spectroscopy JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 2001,
Vol 123, Iss 51, pp 12781-12790
[377] Lu GL; Chen LS; Hu XR; Wang LB; Yuan HT The crystal structure
of new hydrogen storage Mg3MNi2 (M=Al, Ti) alloys ACTA METALLURGICA SINICA
2001, Vol 37, Iss 5, pp 459-462
[378] Izumi F; Kumazawa S; Ikeda T; Hu WZ; Yamamoto A; Oikawa K MEM-based
structure-refinement system REMEDY and its applications EPDIC 7: EUROPEAN
POWDER DIFFRACTION, PTS 1 AND 2 2001, Vol 378-3, pp 59-64
[379] Solans X The limits to the determination of crystal structure
from powder X-ray diffraction data EPDIC 7: EUROPEAN POWDER DIFFRACTION,
PTS 1 AND 2 2001, Vol 378-3, pp 80-85
[380] Jouanneaux A; Le Gonidec X; Fitch AN WinMProf: Visual Rietveld
software EPDIC 7: EUROPEAN POWDER DIFFRACTION, PTS 1 AND 2 2001,
Vol 378-3, pp 112-117
[381] Papoular RJ Automated estimations of asymmetric linewidth parameters
for high-resolution X-ray & neutron powder diffraction data EPDIC 7:
EUROPEAN POWDER DIFFRACTION, PTS 1 AND 2 2001, Vol 378-3, pp 262-267
[382] Benard-Rocherulle P; Tronel H; Louer D Structure and thermal
behaviour of new potassium and ammonium lanthanum sulfates from X-ray powder
diffraction EPDIC 7: EUROPEAN POWDER DIFFRACTION, PTS 1 AND 2 2001, Vol
378-3, pp 476-481
[383] Delgado G; Mora AJ Crystal structure determination of p-bromoaniline
using laboratory X-ray powder diffraction data EPDIC 7: EUROPEAN POWDER
DIFFRACTION, PTS 1 AND 2 2001, Vol 378-3, pp 795-797
[384] Toraya H Crystal structure analysis using high-resolution synchrotron
radiation powder diffraction data JOURNAL OF THE CERAMIC SOCIETY OF JAPAN
2001, Vol 109, Iss 11, pp 903-910
[385] Andreev YG; Bruce PG Using crystallography to understand polymer
electrolytes JOURNAL OF PHYSICS-CONDENSED MATTER 2001, Vol 13, Iss 36,
pp 8245-8255
[386] Bonhomme F; Thoma SG; Nenoff TM A linear DABCO templated fluorogallophosphate:
synthesis and structure determination from powder diffraction data of Ga(PO4H)2(F).[N2C6H14]
JOURNAL OF MATERIALS CHEMISTRY 2001, Vol 11, Iss 10, pp 2559-2563
[387] Kahlenberg V The crystal structures of the strontium gallates
Sr10Ga6O19 and Sr3Ga2O6 JOURNAL OF SOLID STATE CHEMISTRY 2001, Vol 160,
Iss 2, pp 421-429
[388] Toraya H Estimation of errors in the measurement of unit-cell
parameters. I. Statistical uncertainties of peak positions of powder diffraction
lines determined by individual profile fitting JOURNAL OF APPLIED CRYSTALLOGRAPHY
2001, Vol 34, pp 558-565
[389] Pavese A; Levy D; Pischedda V Elastic properties of andradite
and grossular, by synchrotron X-ray diffraction at high pressure conditions
EUROPEAN JOURNAL OF MINERALOGY 2001, Vol 13, Iss 5, pp 929-937
[390] Tedesco C; Dinnebier RE; Olbrich F; van Smaalen S Disordered
crystal structure of pentamethylcyclopentadienylsodium
as seen by high-resolution X-ray powder diffraction ACTA CRYSTALLOGRAPHICA
SECTION B-STRUCTURAL SCIENCE 2001, Vol 57, pp 673-679
[391] Zhang ZH; Leinenweber K; Bauer M; Garvie LAJ; McMillan PF; Wolf
GH High-pressure bulk synthesis of crystalline C6N9H3 HCl: A novel C3N4
graphitic derivative JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 2001, Vol
123, Iss 32, pp 7788-7796
[392] Gomez MI; Lucotti G; de Moran JA; Aymonino PJ; Pagola S; Stephens
P; Carbonio RE Ab initio structure solution of BaFeO2.8-delta a new polytype
in the system BaFeOy (2.5 <= y <= 3.0) prepared from the oxidative
thermal decomposition of BaFe[(CN)(5)NO] 3H(2)O JOURNAL OF SOLID STATE
CHEMISTRY 2001, Vol 160, Iss 1, pp 17-24
[393] Cabeza A; Bruque S; Guagliardi A; Aranda MAG Two new organo-inorganic
hybrid compounds: Nitrilophosphonates of
aluminum and copper JOURNAL OF SOLID STATE CHEMISTRY 2001, Vol 160,
Iss 1, pp 278-286
[394] Salvado MA; Pertierra P; Garcia-Granda S; Khainakov SA; Garcia
JR; Bortun AI; Clearfield A Novel silicate anion: Si8O2212-. Hydrothermal
synthesis and X-ray powder structure of three new niobium silicates INORGANIC
CHEMISTRY 2001, Vol 40, Iss 17, pp 4368-4373
[395] Solovyov LA; Bulina NV; Churilov GN Crystal structures of chloroform
solvates of fullerenes RUSSIAN CHEMICAL BULLETIN 2001, Vol 50, Iss 1, pp
78-80
[396] Wenk HR; Cont L; Xie Y; Lutterotti L; Ratschbacher L; Richardson
J Rietveld texture analysis of Dabie Shan eclogite from TOF neutron diffraction
spectra JOURNAL OF APPLIED CRYSTALLOGRAPHY 2001, Vol 34, pp 442-453
[397] McCusker LB; Baerlocher C; Grosse-Kunstleve R; Brenner S; Wessels
T Solving complex zeolite structures from powder diffraction data CHIMIA
2001, Vol 55, Iss 6, pp 497-504
[398] Solovyov LA; Kirik SD; Shmakov AN; Romannikov VN X-ray structural
modeling of silicate mesoporous mesophase material
MICROPOROUS AND MESOPOROUS MATERIALS 2001, Vol 44, pp 17-23
[399] Ferreira A; Lin Z; Rocha J; Morais CM; Lopes M; Fernandez C Ab
initio structure determination of a small-pore framework
sodium stannosilicate INORGANIC CHEMISTRY 2001, Vol 40, Iss 14, pp
3330-3335
[400] Graetsch HA Hexagonal high-temperature form of aluminium phosphate
tridymite from X-ray powder data ACTA CRYSTALLOGRAPHICA SECTION C-CRYSTAL
STRUCTURE COMMUNICATIONS 2001, Vol 57, pp 665-667
[401] Altomare A; Burla MC; Giacovazzo C; Guagliardi A; Moliterni AGG;
Polidori G; Rizzi R Quanto: a Rietveld program for quantitative phase analysis
of polycrystalline mixtures JOURNAL OF APPLIED CRYSTALLOGRAPHY 2001, Vol
34, pp 392-397
[401] Dusek M; Petricek V; Wunschel M; Dinnebier RE; van Smaalen S
Refinement of modulated structures against X-ray powder
diffraction data with JANA2000 JOURNAL OF APPLIED CRYSTALLOGRAPHY 2001,
Vol 34, pp 398-404
[402] Bonhomme F; Thoma SG; Rodriguez MA; Nenoff TM Ga-4(PO4)(4)F .
N2C7H11 . 1/2H(2)O: A
three-dimensional open framework with 12-membered pores and "bowl-shaped"
building units CHEMISTRY OF MATERIALS 2001, Vol 13, Iss 6, pp 2112-2117
[403] Ananias D; Ferreira A; Rocha J; Ferreira P; Rainho JP; Morais
C; Carlos LD Novel microporous europium and terbium silicates
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 2001, Vol 123, Iss 24, pp
5735-5742
[404] Amoros P; Marcos MD; Roca M; Alamo J; Beltran-Porter A; Beltran-Porter
D Crystal structure of a new polytype in the V-P-O system: is omega-VOPO4
a dynamically stabilised metastable network? JOURNAL OF PHYSICS AND CHEMISTRY
OF SOLIDS 2001, Vol 62, Iss 8, pp 1393-1399
[405] van Duijn J; Attfield JP; Watanuke R; Suzuki K Layer stacking
and twinning in HoB2C JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS 2001,
Vol 62, Iss 8, pp 1423-1429
[406] Smith EDL; Hammond RB; Jones MJ; Roberts KJ; Mitchell JBO; Price
SL; Harris RK; Apperley DC; Cherryman JC; Docherty R The determination
of the crystal structure of anhydrous theophylline by X-ray powder diffraction
with a systematic search algorithm, lattice energy calculations, and C-13
and N-15 solid-state NMR: A question of polymorphism in a given unit cell
JOURNAL OF PHYSICAL CHEMISTRY B 2001, Vol 105, Iss 24, pp 5818-5826
[407] Pavese A; Diella V; Pischedda V; Merli M; Bocchio R; Mezouar
M Pressure-volume-temperature equation of state of andradite and grossular,
by high-pressure and -temperature powder diffraction PHYSICS AND CHEMISTRY
OF MINERALS 2001, Vol 28, Iss 4, pp 242-248
SDPD book based on the SDPD95 congress available ? I still have not it in hands, but I pre-ordered it several months ago...
Invitation to give a keynote lecture about SDPD at EPDIC-8. Unfortunately, a serious car accident, September 29, 2001, has consequences that led me to decline. Same for ACA 2002.
Lachlan Cranswick asked me for the Le Bail method (hi)story, opening the Pandora box - submitted to IUCr XIX, Geneva.
Papers citing [1] in 2002 :
[408] Solovyov LA; Zaikovskii VI; Shmakov AN; Belousov OV; Ryoo R Framework
characterization of mesostructured carbon CMK-1 by X-ray powder diffraction
and electron microscopy JOURNAL OF PHYSICAL CHEMISTRY B 2002, Vol 106,
Iss 47, pp
12198-12202
[409] Walker D; Clark SM; Cranswick LMD; Johnson MC; Jones RL O-2 volumes
at high pressure from KClO4 decomposition: D '' as a siderophile element
pump instead of a lid on the core GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS 2002,
Vol 3, art. no. 1070
[410] Colle M; Dinnebier RE; Brutting W The structure of the blue luminescent
delta-phase of tris(8-hydroxyquinoline)aluminium(III) (Alq(3)) CHEMICAL
COMMUNICATIONS 2002, Iss 23, pp 2908-2909
[411] Kirik SD; Zaitseva JN; Yakimov IS; Golovnev NN LiNa2AlF6: a powder
structure solution ACTA CRYSTALLOGRAPHICA SECTION C-CRYSTAL STRUCTURE COMMUNICATIONS
2002, Vol 58, pp I159-i160
[412] Millange F; Walton RI; Guillou N; Loiseau T; O'Hare D; Ferey
G Synthesis and structure of low-dimensional gallium
fluorodiphosphates seen during the crystallization of the three-dimensional
microporous gallium fluorophosphate ULM-3 CHEMISTRY OF MATERIALS 2002,
Vol 14, Iss 10, pp 4448-4459
[413] Beitone L; Guillou N; Millange F; Loiseau T; Ferey G Structural
characterizations of lithium gallium phosphates, analogous to the amblygonite-montebrasite
series SOLID STATE SCIENCES 2002, Vol 4, Iss 8, pp 1061-1065
[414] Solovyov LA; Shmakov AN; Zaikovskii VI; Joo SH; Ryoo R Detailed
structure of the hexagonally packed mesostructured
carbon material CMK-3 CARBON 2002, Vol 40, Iss 13, pp 2477-2481
[415] Hammond RB; Jones MJ; Roberts KJ; Kutzke H; Klapper H A structural
study of polymorphism in phenyl salicylate: determination of the crystal
structure of a meta-stable phase from X-ray powder diffraction data using
a direct space systematic search method ZEITSCHRIFT FUR KRISTALLOGRAPHIE
2002, Vol 217, Iss 9, pp 484-491
[416] Morales M; Chateigner D; Lutterotti L; Ricote J X-ray combined
QTA using a CPS applied to a ferroelectric ultrastructure TEXTURES OF MATERIALS,
PTS 1 AND 2 2002, Vol 408-4, pp 113-118
[417] Comodi P; Gatta GD; Zanazzi PF; Levy D; Crichton W Thermal equations
of state of dioctahedral micas on the join muscovite-paragonite PHYSICS
AND CHEMISTRY OF MINERALS 2002, Vol 29, Iss 8, pp 538-544
[418] Bursten BE; Chisholm MH; Clark RJH; Firth S; Hadad CM; Wilson
PJ; Woodward PM; Zaleski JM Perfluoroterephthalate bridged complexes with
M-M quadruple bonds: ((BuCO2)-Bu-t)(3)M-2(mu-O2CC6F4CO2)M-2((O2CBu)-Bu-t)(3),
where M
= Mo or W. studies of solid-state, molecular, and electronic structure
and correlations with electronic and Raman spectral data JOURNAL OF THE
AMERICAN CHEMICAL SOCIETY 2002, Vol 124, Iss 41, pp 12244-12254
[419] Papageorgiou TP; Herrmannsdorfer T; Dinnebier R; Mai T; Ernst
T; Wunschel M; Braun HF Magnetization anomalies in the superconducting
state of RuSr2GdCu2O8 and the magnetic study of Sr2GdRuO6 PHYSICA C 2002,
Vol 377, Iss 3, pp 383-392
[420] Johnston JC; David WIF; Markvardsen AJ; Shankland K A hybrid
Monte Carlo method for crystal structure determination
from powder diffraction data ACTA CRYSTALLOGRAPHICA SECTION A 2002,
Vol 58, pp 441-447
[421] Le Bail A Crystallography and crystallographers. Personal reflections
on the past, the present and the future of crystallography on the occasion
of the 125-year anniversary of Zeitschrift fur Kristallographie ZEITSCHRIFT
FUR KRISTALLOGRAPHIE 2002, Vol 217, Iss 7-8, pp 338-340
[422] Manley ME; Fultz B; Brown DW; Clausen B; Lawson AC; Cooley JC;
Hults WL; Hanrahan RJ; Smith JL; Thoma DJ
Microstructural strain energy of alpha-uranium determined by calorimetry
and neutron diffractometry PHYSICAL REVIEW B 2002, Vol 66, Iss 2, art.
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[423] Cunin F; Deudon C; Favier F; Mula B; Pascal JL First anhydrous
gold perchlorato complex: ClO2Au(CIO4)(4). Synthesis and molecular and
crystal structure analysis INORGANIC CHEMISTRY 2002, Vol 41, Iss 16, pp
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[424] Ballone P; Quartieri S; Sani A; Vezzalini G High-pressure deformation
mechanism in scolecite: A combined computational-experimental study AMERICAN
MINERALOGIST 2002, Vol 87, Iss 8-9, pp 1194-1206
[425] Margiolaki I; Margadonna S; Prassides K; Assimopoulos S; Meletov
KP; Kourouklis GA; Dennis TJS; Shinohara H
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Iss 4, pp 372-377
[426] Scarlett NVY; Madsen IC; Cranswick LMD; Lwin T; Groleau E; Stephenson
G; Ayulmore M; Agron-Olshina N Outcomes of the International Union of Crystallography
Commission on powder diffraction round robin on quantitative phase analysis:
Samples 2, 3, 4, synthetic bauxite, natural granodiorite and pharmaceuticals
JOURNAL OF APPLIED CRYSTALLOGRAPHY 2002, Vol 35, pp 383-400
[427] Giannini C; Guagliardi A; Millini R Quantitative phase analysis
by combining the Rietveld and the whole-pattern decomposition methods JOURNAL
OF APPLIED CRYSTALLOGRAPHY 2002, Vol 35, pp 481-490
[428] Cont L; Chateigner D; Lutterotti L; Ricote J; Calzada ML; Mendiola
J Combined X-ray texture-structure-microstructure analysis applied to ferroelectric
ultrastructures: A case on study on Pb0.76Ca0.24TiO3 FERROELECTRICS 2002,
Vol 267, pp 323-328
[429] Kubota Y; Honda T; Plevert J; Yamashita T; Okubo T; Sugi Y Synthesis
of a new molecular sieve using DABCO-based
structure-directing agent CATALYSIS TODAY 2002, Vol 74, Iss 3-4, pp
271-279
[430] Weirich TE; Winterer M; Seifried S; Mayer J Structure of nanocrystalline
anatase solved and refined from electron powder data
ACTA CRYSTALLOGRAPHICA SECTION A 2002, Vol 58, pp 308-315
[431] Markvardsen AJ; David WIF; Shankland K A maximum-likelihood method
for global-optimization-based structure determination from powder diffraction
data ACTA CRYSTALLOGRAPHICA SECTION A 2002, Vol 58, pp 316-326
[432] Chernyshev VV Structure determination from powder diffraction
RUSSIAN CHEMICAL BULLETIN 2001, Vol 50, Iss 12, pp 2273-2292
[433] Honnerscheid A; Dinnebier R; Jansen M Reversible dimerization
of C-60 molecules in the crystal structure of the bis(arene)chromium fulleride
[Cr(C7H8)](2)C-60 ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL SCIENCE 2002,
Vol 58, pp 482-488
[434] Errandonea D; Somayazulu M; Hausermann D CaWO4: A new high-pressure
and high-temperature phase PHYSICA STATUS SOLIDI B-BASIC RESEARCH 2002,
Vol 231, Iss 1, pp R1-R3
[435] Bonhomme F; Thoma SG; Nenoff TM Two ammonium templated gallophosphates:
synthesis and structure determination from powder diffraction data of 2D
and 3D-GAPON MICROPOROUS AND MESOPOROUS MATERIALS 2002, Vol 53, Iss 1-3,
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87-96
[436] Dinnebier RE; Vensky S; Stephens PW; Jansen M Crystal structure
of K-2[C2O6] - First proof of existence and constitution of a peroxodicarbonate
ion ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 2002, Vol 41, Iss 11, pp 1922-+
[437] James M; Watson JN The synthesis and crystal structure of doped
uranium brannerite phases U1-xMxTi2O6 (M=Ca2+, La3+, and Gd3+) JOURNAL
OF SOLID STATE CHEMISTRY 2002, Vol 165, Iss 2, pp 261-265
[438] Lahtinen M; Valkonen J X-ray powder structure determination and
thermal behavior of a new modification of Pb(II) selenite
CHEMISTRY OF MATERIALS 2002, Vol 14, Iss 4, pp 1812-1817
[439] Mansourian-Hadavi N; Mason TO; Ko D; Poeppelmeier KR Defect analysis
of ionically compensated quadruple and quintuple
perovskite layered cuprates with Ti blocking layers JOURNAL OF SOLID
STATE CHEMISTRY 2002, Vol 164, Iss 2, pp 188-200
[440] Hernandez O; Hedoux A; Lefebvre J; Guinet Y; Descamps M; Papoular
R; Masson O Ab initio structure determination of triphenyl phosphite by
powder synchrotron X-ray diffraction JOURNAL OF APPLIED CRYSTALLOGRAPHY
2002, Vol 35, pp 212-219
[441] Ciurchea D Structural aspects of the false 2212 in a (Bi,Pb):
2223 superconductor INTERNATIONAL JOURNAL OF MODERN PHYSICS B 2002, Vol
16, Iss 4, pp 583-592
[442] Bond AD; Jones W Structure prediction as a tool for solution
of the crystal structures of metallo-organic complexes using powder X-ray
diffraction data ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL SCIENCE 2002,
Vol 58, pp 233-243
[443] Brunelli M; Fitch AN; Mora AJ Crystal structures of R-thiocamphor
ZEITSCHRIFT FUR KRISTALLOGRAPHIE 2002, Vol 217, Iss 2, pp 83-87
[444] Wallwork K; Kolitsch U; Pring A; Nasdala L Decrespignyite-(Y),
a new copper yttrium rare earth carbonate chloride hydrate from Paratoo,
South Australia MINERALOGICAL MAGAZINE 2002, Vol 66, Iss 1, pp 181-188
[445] Dinnebier RE; Jelonek S; Sieler J; Stephens PW The solid state
structures of potassium and rubidium salicylate by high resolution X-ray
powder diffraction ZEITSCHRIFT FUR ANORGANISCHE UND ALLGEMEINE CHEMIE 2002,
Vol 628, Iss 2, pp 363-368
[446] Fowkes AJ; Ibberson RM; Rosseinsky MJ Structural characterization
of the redox behavior in copper-exchanged sodium zeolite Y by high-resolution
powder neutron diffraction CHEMISTRY OF MATERIALS 2002, Vol 14, Iss 2,
pp 590-602
[447] Bock H; Hinz-Hubner D; Ruschewitz U; Naumann D Structure of bis(pentafluorophenyl)xenon,
Xe(C6F5)(2) ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 2002, Vol 41, Iss 3,
pp 448-450
[448] Cheung EY; McCabe EE; Harris KDM; Johnston RL; Tedesco E; Raja
KMP; Balaram P C-H . . . O hydrogen bond mediated chain reversal in a peptide
containing a gamma-amino acid residue, determined directly from powder
X-ray diffraction data ANGEWANDTE CHEMIE-INTERNATIONAL EDITION 2002, Vol
41, Iss 3, pp 494-496
[449] Dinnebier RE; Ibberson RM; Ehrenberg H; Jansen M The crystal
structures of the binary mixed valence compound
(Bi3BiO7)-Bi-(III)-O-(V) and isotypic Bi3SbO7 as determined by high
resolution X-ray and neutron powder diffraction JOURNAL OF SOLID STATE
CHEMISTRY 2002, Vol 163, Iss 1, pp 332-339
[450] Lee YJ; Park SH; Eng C; Parise JB; Grey CP Cation ordering and
electrochemical properties of the cathode materials LiZnxMn2-O-x(4), 0
< x <= 0.5: A Li-6 magic-angle spinning NMR spectroscopy and diffraction
study CHEMISTRY OF MATERIALS 2002, Vol 14, Iss 1, pp 194-205
[451] Dinnebier RE; Bernatowicz P; Helluy X; Sebald A; Wunschel M;
Fitch A; van Smaalen S Structure of compounds E(SnMe3)(4) (E = Si, Ge)
as seen by high-resolution X-ray powder diffraction and solid-state NMR
ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL SCIENCE 2002, Vol 58, pp 52-61
[452] Graetsch HA Monoclinic AlPO4 tridymite at 473 and 463 K from
X-ray powder data ACTA CRYSTALLOGRAPHICA SECTION C-CRYSTAL STRUCTURE COMMUNICATIONS
2002, Vol 58, pp I18-I20
A visit at the Web of Science in March 2003 gives 388 citations for paper [1] and 719 citations for the Juan Rodriguez-Carvajal paper [42].
Papers citing [1] in 2003 :
[453] Wunschel M; Dinnebier RE; Carlson S; Bernatowicz P; van Smaalen
S, Influence of the molecular structures on the high-pressure and low-temperature
phase transitions of plastic crystals ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL
SCIENCE 2003, Vol 59, pp 60-71
[454] Asthalter T; Franz H; van Burck U; Messel K; Schreier E; Dinnebier
R Structure and dynamics of octamethyl-ethinyl-ferrocene: an
organometallic rotator phase JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS
2003, Vol 64, Iss 4, pp 677-684
[455] Harvey HG; Hu J; Attfield MP Synthesis, structural characterization,
and readsorption behavior of a solid solution aluminum phosphite/ethylenediphosphonate
series CHEMISTRY OF MATERIALS 2003, Vol 15, Iss 1, pp 179-188.
[456] Nockemann, P Cremer, U Ruschewitz, U Meyer, G, Mercurous azide,
Hg-2(N-3)(2), ZEITSCHRIFT FUR ANORGANISCHE UND ALLGEMEINE CHEMIE
2003 , 629, 2079-2082.
[457] Serda, P Grochowski, J Duddeck, H, The structure of marmesinin
by powder and single-crystal diffraction methods, JOURNAL OF ALLOYS AND
COMPOUNDS, 2004, 362, 224-230.
[458] Pompetzki, M Dinnebier, RE Jansen, M, Sodium dithiophosphate(V):
Crystal structure, sodium ionic conductivity and dismutation, SOLID STATE
SCIENCES, 2003, 5, 1439-1444.
[459] Skinner, SJ Kang, Y X-ray diffraction studies and phase transformations
of CeNbO4+delta using in situ techniques, SOLID STATE SCIENCES, 2003,
5, 1475-1479.
[460] Chaker, H Kabadou, A Toumi, M Ben Hassen, R, Rietveld refinement
of the gadolinium strontium oxide SrGd2O4, POWDER DIFFRACTION, 2003,
18, 288-292.
[461] Ferreira, A, Lin, Z, Soares, MR, Rocha, J, Ab initio structure
determination of novel small-pore metal-silicates: knots-and-crosses structures,
INORGANICA CHIMICA ACTA, 2003, 356, 19-26.
[462] Ferreira, A Ananias, D Carlos, LD Morais, CM Rocha, J,
Novel microporous lanthanide silicates with tobermorite-like structure,
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2003, 125,
14573-14579.
[463] Tedesco, E Della Sala, F Favaretto, L Barbarella, G Albesa-Jove,
D Pisignano, D Gigli, G Cingolani, R Harris, KDM, Solid-state supramolecular
organization, established directly from powder diffraction data, and photoluminescence
efficiency of rigid-core oligothiophene-S,S-dioxides, JOURNAL OF THE AMERICAN
CHEMICAL SOCIETY, 2003, 125, 12277-12283.
[464] Cheung, EY Harris, KDM Johnston, RL Hadden, KL Zakrzewsk, M,
Polymorphism of a novel sodium ion channel blocker, JOURNAL OF PHARMACEUTICAL
SCIENCES, 2003, 92, 2017-2026?
[465] Dinnebier, RE Vensky, S Jansen, M, Crystal and molecular structure
of rubidium peroxodicarbonate Rb-2[C2O6], CHEMISTRY-A EUROPEAN JOURNAL,
2003, 9, 4391-4395.
[466] Roux, M Marichal, C Le Meins, JM Baerlocher, C Chezeau, JM,
Solid state NMR and X-ray diffraction study of three forms of the aluminophosphate
AlPO4-ZON, MICROPOROUS AND MESOPOROUS MATERIALS, 2003, 63,
163-176.
[467] Botez, CE Stephens, PW Nunes, C Suryanarayanan, R, Crystal structure
of anhydrous delta-D-mannitol, POWDER DIFFRACTION, 2003, 18, 214-218.
[468] Lee, Y Mitzi, DB Barnes, PW Vogt, T, Pressure-induced phase
transitions and templating effect in three-dimensional organic-inorganic
hybrid perovskites, PHYSICAL REVIEW B, 2003, 68,.
[469] Bull, CL Gleeson, D Knight, KS, Determination of B-site ordering
and structural transformations in the mixed transition metal perovskites
La2CoMnO6 and La2NiMnO6, SO JOURNAL OF PHYSICS-CONDENSED MATTER,
2003, 15, 4927-4936.
[470] James, M Carter, ML Watson, JN, The synthesis, crystal
chemistry and structures of Y-doped brannerite (U1-xYxTi2O6) and thorutite
(Th1-xYxTi2O6-delta) phases, JOURNAL OF SOLID STATE CHEMISTRY, 2003,
174, 329-333?
[471] Migdal-Mikuli, A Mikuli, E Hetmanczyk, L Natkaniec, I Holderna-Natkaniec,
K Lasocha, W, Phase transitions, structural changes and molecular
motions in [Zn(NH3)(4)](BF4)(2) studied by neutron scattering, X-ray powder
diffraction and nuclear magnetic resonance, JOURNAL OF SOLID STATE CHEMISTRY,
2003, 174, 357-364.
[472] Dong, YH Liu, J Li, YC Li, XD, A full-pattern fitting algorithm
for energy-dispersive X-ray diffraction, JOURNAL OF APPLIED CRYSTALLOGRAPHY,
2003, 36, 1123-1127.
[473] Cervellino, A Giannini, C Guagliardi, A, Determination of nanoparticle
structure type, size and strain distribution from X-ray data for monatomic
f.c.c.-derived non-crystallographic nanoclusters, JOURNAL OF APPLIED CRYSTALLOGRAPHY,
2003, 36, 1148-1158.
[474] Barthelet, K Adil, K Millange, F Serre, C Riou, D Ferey, G, Synthesis,
structure determination and magnetic behaviour of the first porous hybrid
oxyfluorinated vanado(III)carboxylate: MIL-71 or V-2(III)(OH)(2)F-2{O2C-C6H4-CO2}.H2O,
JOURNAL OF MATERIALS CHEMISTRY, 2003, 13, 2208-2212.
|475] Graetsch, HA, Rietveld refinement of incommensurate low tridymite,
ZEITSCHRIFT FUR KRISTALLOGRAPHIE, 2003, 218, 531-535.
[476] Friese, K Honnerscheid, A Jansen, M, Crystal structure determination
of systematically intergrown compounds: Li-5(OH)(2)Br-3 and Li-2(OH)Br,
ZEITSCHRIFT FUR KRISTALLOGRAPHIE, 2003, 218, 536-541.
[477] Bonetto, RD Zalba, PE Conconi, MS Manassero, M, The Rietveld
method applied to quantitative phase analysis of minerals containing disordered
structures, REVISTA GEOLOGICA DE CHILE, 2003, 30, 103-115.
[478] Bauer, EM Bellitto, C Ibrahim, SA Mahmoud, MR Righini, G, Ni(II)octadecylphosphonate:
an inorganic/organic layered weak-ferromagnet, POLYHEDRON, 2003, 22, 2463-2469.
[479] Howard, CJ Zhang, ZM, Structures and phase transition in the
layered perovskite La0.6Sr0.1TiO3: a new orthorhombic structure solved
from high-resolution diffraction in combination with group theoretical
analysis, JOURNAL OF PHYSICS-CONDENSED MATTER, 2003, 15, 4543-4553.
[480] Ciurchea, D, Structure and superconducting properties of (Bi,Pb):
2223 superconductor with 3D excess conductivity, INTERNATIONAL JOURNAL
OF MODERN PHYSICS B, 2003, 17, 2851-2861.
[481] Le Bail, A Stephens, PW Hubert, F, A crystal structure for the
souzalite/gormanite series from synchrotron powder diffraction data,
EUROPEAN JOURNAL OF MINERALOGY, 2003, 15, 719-723.
[482] Shekunov, BY Bristow, S Chow, AHL Cranswick, L Grant, DJW York,
P, Formation of composite crystals by precipitation in supercritical CO2,
CRYSTAL GROWTH & DESIGN, 2003, 3, 603-610.
[483] Jackson, JM Palko, JW Andrault, D Sinogeikin, SV Lakshtanov,
DL Wang, JY Bass, JD Zha, CS, Thermal expansion of natural orthoenstatite
to 1473 K, EUROPEAN JOURNAL OF MINERALOGY, 2003, 15, 469-473.
[484] Coste, S Gautier, E Evain, M Bujoli-Doeuff, M Brec, R Jobic,
S Kanatzidis, MG, TI NaV1-xP2S6 (x=0.16): A new compound with infinite
straight (1/infinity)[V0.837P2S6](-) chains that exfoliate forming gels,
CHEMISTRY OF MATERIALS, 2003, 15, 2323-2327.
[485] Le Bail, A Mercier, AM, Distorted chiolite crystal structures
of alpha-Na5M3F14 (M=Cr,Fe,Ga) studied by X-ray powder diffraction, POWDER
DIFFRACTION, 2003, 18, 128-134.
|486] Xia, CT Asahi, R Tani, T, Growth of In2O3(ZnO)(5) platelet micro-crystals
by flux methods, JOURNAL OF CRYSTAL GROWTH, 2003, 254, 144-150.
[489] Stock, N Guillou, N Bein, T Ferey, G, Inorganic-organic hybrid
compounds: synthesis and crystal structure determination from powder diffraction
data of Sn-2[O3PCH2C6H4CH2PO3], SOLID STATE SCIENCES, 2003, 5, 629-634.
[490] Altomare, A Caliandro, R Cuocci, C Giacovazzo, C Moliterni, AGG
Rizzi, R, A systematic procedure for the decomposition of a powder diffraction
pattern, JOURNAL OF APPLIED CRYSTALLOGRAPHY, 2003, 36, 906-913.
[491] Whitfield, PS, Use of double Gobel mirrors with high-temperature
stages for powder diffraction - a strategy to avoid severe intensity fade,
JOURNAL OF APPLIED CRYSTALLOGRAPHY, 2003, 36, 926-930.
[492] Khemakhem, S Yahyaoui, S Ben Hassen, R Khemakhem, H Ben Salah,
A, Crystal structure and electrical behavior of the new ceramic Ba0.7Na0.3Ti0.7Nb0.3O3,
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|493] Barnes, PW Woodward, PM Lee, Y Vogt, T Hriljac, JA, Pressure-induced
cation migration and volume expansion in the defect pyrochlores ANbWO(6)
(A = NH4+, Rb+, H+, K+), JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2003,
125, 4572-4579.
[494] Sonoda, Y Kawanishi, Y Ikeda, T Goto, M Hayashi, S Yoshida, Y
Tanigaki, N Yaso, K, Fluorescence spectra for the microcrystals and thin
films of trans,trans,trans-1,6-diphenyl-1,3,5-hexatrienes, JOURNAL OF PHYSICAL
CHEMISTRY B, 2003, 107, 3376-3383.
[495] Harvey, HG Teat, SJ Tang, CC Cranswick, LM Attfield, MP, Synthesis
and characterization of three novel cation-containing (NH4+/(CHNH3+)-H-3-N-7/NH3+C2H4NH3+)
aluminum diphosphonates, INORGANIC CHEMISTRY, 2003, 42, 2428-2439.
[496] Errandonea, D Meng, Y Hausermann, D Uchida, T, Study of the phase
transformations and equation of state of magnesium by synchrotron x-ray
diffraction, JOURNAL OF PHYSICS-CONDENSED MATTER, 2003, 15, 1277-1289.
[497] Bellitto, C Bauer, EM Ibrahim, SA Mahmoud, MR Righini, G, Synthesis,
X-ray powder structure, and magnetic properties of layered Ni-II methylphosphonate,
[Ni(CH3PO3)(H2O)], and Ni-II octadecylphosphonate, [Ni{CH3-(CH2)(17)-PO3}(H2O)],
CHEMISTRY-A EUROPEAN JOURNAL, 2003, 9, 1324-1331.
[498] Neumann, MA, X-Cell: a novel indexing algorithm for routine tasks
and difficult cases, JOURNAL OF APPLIED CRYSTALLOGRAPHY, 2003, 36, 356-365.
[499] Dinnebier, RE Vensky, S Panthofer, M Jansen, M, Crystal and molecular
structures of alkali oxalates: First proof of a staggered oxalate anion
in the solid state, INORGANIC CHEMISTRY, 2003, 42, 1499-1507.
A visit at the Web of Knowledge in November 2004 gives 490 citations
for paper [1], 1118 for paper [42] (J. Rodriguez-Carvajal), 192 for EXTRA
[93] and 141 for EXPO [299] (Giacovazzo group).
[500] Golobic, A Skapin, SD Suvorov, D Meden, A, Solving structural
problems of ceramic materials, CROATICA CHEMICA ACTA, 2004, 77, 435-446.
[501] AU Nunes, C Suryanarayanan, R Botez, CE Stephens, PW, Characterization
and crystal structure of D-mannitol hemihydrate, JOURNAL OF PHARMACEUTICAL
SCIENCES, 2004, 93, 2800-2809.
|502] Altomare, A Caliandro, R Camalli, M Cuocci, C da Silva, I Giacovazzo,
C Moliterni, AGG Spagna, R, Space-group determination from powder diffraction
data: a probabilistic approach, JOURNAL OF APPLIED CRYSTALLOGRAPHY, 2004,
37, 957-966.
[503] Altomare, A Caliandro, R Camalli, M Cuocci, C Giacovazzo, C Moliterni,
AGG Rizzi, R, Automatic structure determination from powder data with EXPO2004,
JOURNAL OF APPLIED CRYSTALLOGRAPHY, 2004, 37, 1025-1028.
[504] Lee, Y Hriljac, JA Vogt, T, Pressure-induced migration of zeolitic
water in laumontite, PHYSICS AND CHEMISTRY OF MINERALS, 2004, 31, 421-428.
[505] Parfitt, DC Hull, S Keen, DA Crichton, W, High-pressure dissociation
of silver mercury iodide, Ag2HgI4, JOURNAL OF SOLID STATE CHEMISTRY, 2004,
177, 3715-3720.
[506] Dinnebier, R Sofina, N Jansen, M, The structure of the high temperature
modification of lithium triflate (gamma-LiSo(3)CF(3)), ZEITSCHRIFT FUR
ANORGANISCHE UND ALLGEMEINE CHEMIE, 2004, 630, 1613-1616.
|507] Kung, J Li, BS Uchida, T Wang, YB Neuville, D Liebermann, RC,
In situ measurements of sound velocities and densities across the orthopyroxene
-> high-pressure clinopyroxene transition in MgSiO3 at high pressure, PHYSICS
OF THE EARTH AND PLANETARY INTERIORS, 2004, 147, 27-44.
[508] Harris, KDM Cheung, EY, How to determine structures when single
crystals cannot be grown: opportunities for structure determination of
molecular materials using powder diffraction data, CHEMICAL SOCIETY REVIEWS,
2004, 33, 526-538.
[509] Stramare, S Weppner, W, Structure and conductivity of B-site
substituted (Li,La)TiO3, MATERIALS SCIENCE AND ENGINEERING B-SOLID STATE
MATERIALS FOR ADVANCED TECHNOLOGY, 2004, 113, 85-90.
|510] Zanardi, S Alberti, A Cruciani, G Corma, A Fornes, V Brunelli,
M, Crystal structure determination of zeolite Nu-6(2) and its layered precursor
Nu-6(1), ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2004, 43, 4933-4937.
|511] Kirik, SD Mulagaleev, RF Blokhin, AI, [Pd(CH3COO)(2)](n) from
X-ray powder diff raction data, ACTA CRYSTALLOGRAPHICA SECTION C-CRYSTAL
STRUCTURE COMMUNICATIONS, 2004, 60, M449-M450.
[512] Muhle, C Nuss, J Dinnebier, RE Jansen, M, On potassium tetracyanoplatinate(II),
potassium tetracyanopalladate(II), and their monohydrates, ZEITSCHRIFT
FUR ANORGANISCHE UND ALLGEMEINE CHEMIE, 2004, 630, 1462-1468.
[513] Ei-Himri, A Marrero-Lopez, D Nunez, P, Pt2Mo3N and PdPtMo3N:
new interstitial nitrides prepared from freeze-dried precursors, JOURNAL
OF SOLID STATE CHEMISTRY, 2004, 177, 3219-3223.
[514] Harvey, HG Herve, AC Hailes, HC Attfield, MP, Synthesis, crystal
structures, and modifications of novel framework gallium diphosphonates,
CHEMISTRY OF MATERIALS, 2004, 16, 3756-3766.
[515] Boultif, A Louer, D, Powder pattern indexing with the dichotomy
method, JOURNAL OF APPLIED CRYSTALLOGRAPHY, 2004, 37, 724-731.
[516] Rukiah, M Lefebvre, J Hernandez, O van Beek, W Serpellon, M,
Ab initio structure determination of the Gamma form of D-sorbitol (D-glucitol)
by powder synchrotron X-ray diffraction, JOURNAL OF APPLIED CRYSTALLOGRAPHY,
2004, 37, 766-772.
[517] Welch, MD Kleppe, AK Jephcoat, AP, Novel high-pressure behavior
in chlorite: A synchrotron XRD study of clinochlore to 27 GPa, AMERICAN
MINERALOGIST, 2004, 89, 1337-1340.
[517] Birkedal, H Madsen, D Mathiesen, RH Knudsen, K Weber, HP Pattison,
P Schwarzenbach, D, The charge density of urea from synchrotron diffraction
data, ACTA CRYSTALLOGRAPHICA SECTION A, 2004, 60, 371-381.
[518] Lobanov, MV Greenblatt, M Caspi, EN Jorgensen, JD Sheptyakov,
DV Toby, BH Botez, CE Stephens, PW, Crystal and magnetic structure of the
Ca3Mn2O7 Ruddlesden-Popper phase: neutron and synchrotron x-ray diffraction
study, JOURNAL OF PHYSICS-CONDENSED MATTER, 2004, 16, 5339-5348.
|519] Gomez-Alcantara, MM, Cabeza, A, Martinez-Lara, M, Aranda, MAG,
Suau, R, Bhuvanesh, N, Clearfield, A, Synthesis and characterization of
a new bisphosphonic acid and several metal hybrids derivatives, INORGANIC
CHEMISTRY, 2004, 43, 5283-5293.
[520] Amami, M van Smaalen, S Salah, AB Helluy, X Sebald, A, Structural
investigation of trimethylammonium tetrachloromercurate, JOURNAL OF SOLID
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|521] Nyman, M Bonhomme, F Alam, TM Parise, JB Vaughan, GMB, [SiNb12O40](16-)
and [GeNb12O40](16-): Highly charged Keggin ions with sticky surfaces,
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[522] Neiner, D Golub, V Wiley, JB, Synthesis and characterization
of the new layered perovskite, Na-0.10(VO)(0.45)LaTiO4 . nH(2)O,
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[523] Altomare, A Giacovazzo, C Grazia, A Moliterni, G Rizzi, R, Direct
methods optimised for solving crystal structure by powder diffraction data:
Limits, strategies, and prospects, JOURNAL OF RESEARCH OF THE NATIONAL
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[524] Platteau, C Lefebvre, J Affouard, F Derollez, P, Ab initio structure
determination of the hygroscopic anhydrous form of a-lactose by powder
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As this can be easily achieved in almost any Rietveld program, the Le Bail method caused a marked and radical increase in the ability to solve structures from powder diffraction data. Examples of the power of the Le Bail method include the ability for whole profile unit cell refinement involving overlapping reflections, extraction of |F|hkls for structure solution and space group determination. Le Bail fitting is considered as standard functionality in any modern Rietveld software, including the present recommendation to Le Bail fit the powder pattern prior to structure solution or even prior to structure refinement.
Not sure if a politics of controlled software and secret algorithm would
have led to such a large spread in the use of the method. The Internet
was used as a vehicle since 1993-1994 by FTP and 1995 on the Web.
Books that are published 4-7 years after the meeting of the authors are
probably not the more efficient way today for a fast distribution of innovations.