| 1 - 8 |
Grain surface relaxation and grain interaction in powder diffraction
Leoni M |
| 11 - 21 |
Fundamental developments in direct-space techniques for structure solution from powder diffraction data
Habershon S, Albesa-Jove D, Cheung EY, Turner GW, Johnston RL, Harris KDM |
| 23 - 26 |
Completion of crystal structure with polyhedral coordination: A new procedure
Altomare A, Cuocci C, Giacovazzo C, Grazia A, Moliterni G, Rizzi R |
| 27 - 30 |
Calibration of diffractometers: A test method to monitor the performance of instruments
Berti G, Bartoli U, D'Acunto M, De Marco F |
| 31 - 34 |
Standardisation of X-ray powder diffraction methods
Berti G, Delhez R, Norval S, Peplinski B, Tolle E, Verollet J |
| 35 - 38 |
FOX: Modular approach to crystal structure determination from powder diffraction
Favre-Nicolin V, Cerny R |
| 39 - 42 |
X-ray powder diffraction study of atomic structure of nanocrystalline SiC and diamond materials
Grzanka E, Palosz B, Gierlotka S, Stel'makh S, Pielaszek R, Bismayer U, Neuefeind J, Jovari P, Paiosz W |
| 45 - 50 |
Quantitative phase analysis using the Rietveld method - Estimates of possible problems based on two interlaboratory comparisons
Peplinski B, Kleeberg R, Bergmann J, Wenzel J |
| 51 - 54 |
Planar disorder analysis from powder diffraction pattern
Estevez-Rams E, Lora R, Penton A, Aragon-Fernandez B, Fuess H |
| 55 - 58 |
New method for estimation of the magnesium fraction in magnesian calcite
Grzeta B, Medakovic D, Popovic S |
| 59 - 62 |
XRD study of the nacrite/CsCl/H2O intercalation complex
Naamen S, Ben Rhaiem H, Amara AB |
| 65 - 70 |
X-ray scattering from thin films and multilayers
Rafaja D |
| 71 - 76 |
Microstructure of nanocrystalline powders from line profile analysis
Audebrand N, Louer D |
| 77 - 82 |
Elastic behaviour of thin stabilized-zirconia coatings
Scardi P, Leoni M, Loch M, Barbezat G |
| 83 - 86 |
Characterization of crystalline silicon via XRPD
Berti G, Bartoli U, Basile G, Becker P, Fitch A |
| 87 - 90 |
Simulation of X-ray powder diffraction patterns for one-dimensionally disordered crystals
Cherepanova S, Tsybulya S |
| 91 - 94 |
Reconstruction of stress and composition profiles from X-ray diffraction experiments - How to avoid ghost stresses?
Christiansen T, Somers MAJ |
| 95 - 98 |
Contrast factors and character of dislocations in cubic and hexagonal crystals
Dragomir LC, Borbely A, Ungar T |
| 99 - 102 |
Computer simulation for X-ray analysis of nanostructured Cu processed by severe plastic deformation
Enikeev NA, Alexandrov IV, Valiev RZ |
| 103 - 106 |
The microstructure of mechanically alloyed nanocrystalline aluminium-magnesium
Gubicza J, Kassem M, Ungar T |
| 107 - 110 |
Approximate estimation of contributions to pure X-ray diffraction line profiles from crystallite shapes, sizes and strains by analysing peak widths
Kojdecki MA |
| 111 - 114 |
Study of submicrocrystalline materials by conventional powder diffraction and diffuse scattering in transmitted wave
Kuzel R, Simek D, Kub J, Islamgaliev R |
| 115 - 118 |
Thickness determination of thin polycrystalline films by grazing incidence X-ray diffraction
Lhotka J, Kuzel R, Cappuccio G, Valvoda V |
| 119 - 122 |
XRD line broadening analysis with ball milled palladium
Lucks I, Lamparter P, Xu J, Mittemeijer EJ |
| 123 - 126 |
Line broadening analysis using FullProf*: Determination of microstructural properties
Rodriguez-Carvajal J, Roisnel T |
| 127 - 130 |
Line profile analysis (LPA) methods: Systematic ranking of the quality of their basic assumptions
Vermeulen AC, Delhez R |
| 131 - 134 |
Applicability of the crystallite group method to fibre textured specimens
Welzel U, Mittemeijer EJ |
| 137 - 140 |
Optimization of X-ray pole figure measurement
Tarkowski L, Laskosz L, Bonarski JT |
| 141 - 144 |
Single reflection method for pole-density measurements accounting for secondary extinction in textured films
Tomov I |
| 145 - 148 |
A quantitative basis for rocking curve measurement of highly oriented polycrystalline thin films
Toraya H, Hibino H, Ida T |
| 151 - 154 |
Investigating X-ray Bragg-line displacement as a technique for determination of the thermal expansion coefficient of solid samples
Battaglia S, Mango F |
| 155 - 158 |
Small angle X-ray scattering with cobalt radiation for nanostructure characterization of Fe-based specimen
Erlacher K, Gorgl R, Keckes J, Jakob H, Bruegemann L, Doppler P, Bergmann A, Leitner H, Marsoner S, Fratzl P |
| 159 - 162 |
Performance stability of microfocusing source and multilayer optics based X-ray diffraction system
Kim B, Verman B, Jiang L |
| 163 - 166 |
Fitting of reciprocal space maps of thin films with texture and stress
Simek D, Kuzel R, Kub J, Kunc F |
| 167 - 170 |
Analytical comparison of parallel beam and Bragg-Brentano diffractometer performances
Verman B, Kim B |
| 171 - 174 |
A simple analytical approach to describe a beam conditioning system
Verman B, Seshadri S, Kim B |
| 175 - 178 |
128-channel silicon strip detector installed at a powder diffractometer
Zieba A, Dabrowski W, Grybos P, Powroznik W, Slowik J, Stobiecki T, Swientek K, Wiacek P |
| 181 - 186 |
Future trends in high intensity neutron powder diffraction
Hansen TC |
| 189 - 192 |
Texture inheritance in a Zn protective layer
Bonarski J |
| 193 - 196 |
Effect of annealing on structural properties of Co thin films and Co/Cu multilayers
Hecker M, Mattern N, Bruckner W, Schneider CM |
| 197 - 200 |
Structure and phase composition study of thin CdS and CdxZn1-xS films
Maximovski EA, Fainer NI, Rumyantsev YM |
| 201 - 204 |
X-ray diffraction investigation of electrochemically deposited copper
Pantleon K, Jensen JD, Somers MAJ |
| 205 - 208 |
Short-term annealing on the crystalline structure of metallic multilayers with a TiB2 anti-diffusion layer on GaAs substrate
Kryshtab TG |
| 211 - 216 |
Phase transformations in metallic glasses
Jiang JZ |
| 217 - 222 |
Non-crystallographic nanopores in single crystals: A new approach in nanomaterials chemistry
Jacobsen CJH, Schmidt I, Brorson M, Boisen A, Hansen TW, Dahl S |
| 223 - 226 |
Self-organization in semifluorinated polymers
Jehnichen D, Pospiech D, Haussler L, Friedel P, Gottwald A, Kummer S |
| 227 - 230 |
Structure of Zr52Ti5CU18Ni15Al10 bulk metallic glass at elevated temperatures
Mattern N, Kuhn U, Sakowski J, Neuefeind J, Eckert J |
| 233 - 238 |
Magnetic neutron scattering from the rare-earth intermetallic compound system R3Pd20Si6 (R = rare earth)
Herrmannsdorfer T, Donni A, Fischer P, Keller L, Janssen S, Furrer A, van den Brandt B, Kitazawa H |
| 239 - 242 |
On the development of copper textures - Neutron diffraction control over a period of 12 years -
Jansen E, Schafer W, Kirfel A, Palacios J |
| 243 - 246 |
Texture analysis of nanostructured metals produced by severe plastic deformation
Kilmametov AR, Alexandrov IV, Dubravina AA |
| 247 - 250 |
In situ and ex situ observation of the ordering kinetics in Ni1.50Sn
Leineweber A, Mittemeijer EJ, Knapp M, Baehtz C |
| 251 - 254 |
Small-angle neutron scattering in FCCFe-Ni and Fe-Ni-C alloys
Nadutov VM, Garamus VM, Willumeit R, Svystunov YO |
| 255 - 258 |
Distributions of domain size, lattice distortion and dislocation density in tubes of Zr-based alloys studied by a method combining X-ray line profile analysis with texture measurements
Perlovich Y, Isaenkova M |
| 259 - 262 |
New principles of the substructure development in metal materials under plastic deformation, revealed by advanced X-ray methods
Perlovich Y, Isaenkova M |
| 263 - 266 |
Neutron diffraction study on intermetallic Er5Mg24 and Tm5Mg24
Schafer W, Buschow KHJ |
| 267 - 270 |
Quantitative texture analysis and phase fraction of nickel-titanium shape memory alloys by means of neutron diffraction
Sitepu H, Brokmeier HG |
| 271 - 274 |
Structure relations and XRD patterns of the disorder-order transition of metastable RE2TM17 alloys
Teresiak A |
| 277 - 282 |
Neutron and X-ray diffraction studies of piezoelectric materials under non-ambient conditions
Haines J, Cambon O, Rouquette J, Bornand V, Papet P, Leger JM, Hull S |
| 283 - 286 |
Synthesis and characterization of Al, Y, Co and Cr substituted ultrafine powder of NiFe2O4
Blanusa J, Antic B, Nikolic AS, Rakic S, Jovic N, Sreckovic M |
| 287 - 290 |
Order-disorder phase transition in NaBD4
Fischer P, Zuttel A |
| 291 - 294 |
Kinetics of the decomposition of crocidolite asbestos: A preliminary real-time X-ray powder diffraction study
Gualtieri AF, Levy D, Belluso E, Dapiaggi M |
| 295 - 298 |
Sorbate rearrangement and cation migration in HFC-134 loaded NaY zeolite: A temperature dependent synchrotron powder diffraction study
Gualtieri AF, Norby P, Grey CP, Hanson JC |
| 299 - 302 |
Kinetic investigations of lamellar calciumalumintechromatehydrates with high speed detector
Goske J, Konig U, Pollmann H |
| 303 - 306 |
Features of crystal structure and ferroelectric phase transitions of KTiOPO4 doped with Nb and Sb
Ivanov SA, Stefanovich SY, Eriksson SG, Voronkova VI, Losevskaya TY, Yanovskii VK, Tellgren R, Rundlof H |
| 307 - 310 |
Synthesis, properties and characterisation of manganeous Layered Double Hydroxides using in situ X-ray techniques
Konig U, Pollmann H |
| 311 - 314 |
Phase transformations in Li-Mn-O spinels synthesized by sol-gel method
Lisovytskiy D, Kaszkur Z, Baumer VN, Pielaszek J, Marzec J, Molenda J, Dygas J, Kopec M, Krok F |
| 315 - 318 |
Influence of the dehydration on location of both sodium and calcium cations in 5A zeolite - An in situ X-ray diffraction study
Pichon C, Rebours B, Paoli H, Bataille T, Lynch J |
| 319 - 322 |
Calcination of ZSM-5. An in situ synchrotron powder diffraction study
Stahl K, Gustavsson E, Jacobsen CJH, Schmidt I |
| 325 - 328 |
Structural studies of the spinel system GaxCoFe1-xCrO4 (0 <= x <= 1) by neutron powder diffraction
Azad AK, Eriksson SG, Yunus SM, Eriksen J, Rundlof H |
| 329 - 332 |
Synthesis and ab initio structure determination from powder diffraction data of K4Sn2Si6O18
Ferreira A, Lin Z, Soares MR, Rocha J |
| 333 - 336 |
Ab initio determination of a new complex structure (55 non-hydrogen atoms) from synchrotron powder data: An uncommon nickel succinate, Ni-7(C4H4O4)(4)(OH)(6)(H2O)(3)center dot 7H(2)O
Guillou N, Livage C, van Beek W, Ferey G |
| 337 - 340 |
Structural study of a high ionic conductor Rb4Cu16I7.2CI12.8
Oikawa K, Kamiyama T, Kanno R, Izumi F, Ikeda T, Chakoumakos BC |
| 341 - 344 |
The hunt for hydrogen in the high-pressure phase of Ca(OH)(2) and Ca(OD)(2): Neutrons versus X-rays
Papoular RJ, Kunz M |
| 345 - 348 |
The structure investigation of copper, nickel and iron hexacyanometalates from conventional X-ray powder diffraction data
Petrovic-Prelevic I, Widmann A, Kahlert H, Wulff H, Scholz F |
| 349 - 352 |
Location of water and p-xylene molecules adsorbed on hydrated zeolite BaX - A low-temperature neutron powder diffraction study
Pichon C, Methivier A, Rebours B, Lynch J |
| 353 - 356 |
Neutron powder diffraction investigation of Pd2.7Ni0.3P0.94
Vennstrom M, Andersson Y |
| 357 - 360 |
The pauling file
Villars P, Berndt M, Brandenburg K, Cenzual K, Daams J, Hulliger F, Okamoto H, Osaki K, Prince A, Putz H, Iwata S |
| 361 - 364 |
The effect of varying Ca-content on the structure of high-T-c superconductor (CaxLa1-x)(Ba1.75-xLa0.25+x)Cu3O7-delta (x=0.5, 0.6, and 0.8) studied by neutron powder diffraction
Sato Y, Valkeapaa M, Petrykin V, Osada M, Eriksson S, Kakihana M, Rundlof H |
| 365 - 368 |
Synthesis, cation distribution and crystal structure of the spinel system ZnxN1-xFeCrO4 (0.2 <= x <= 0.8)
Zakaria AKM, Asgar MA, Eriksson SG, Ahmed FU, Yunus SM, Azad AK, Rundlof H |
| 371 - 374 |
Influence of the cation distribution on the physical properties of the diluted magnetics Li1.33Ti1.67O4/Co2TiO4
Antic B, Blanusa J, Jovic N, Kusigerski V, Kremenovic A |
| 375 - 378 |
Synthesis and crystal structure of the double perovskite Ca2-xSrxMnWO6 (x=0.0, 0.5, 1.0, 1.5, 2.0)
Azad AK, Eriksson SG, Rundlof H, Eriksen J |
| 379 - 382 |
Low temperature magnetic structure of CrNiAs
Bacmann M, Fruchart D, Koumina A, Wolfers P |
| 383 - 386 |
A neutron diffraction study of magnetically ordered ferroelectric materials
Ivanov SA, Eriksson SG, Tellgren R, Rundlof H |
| 387 - 390 |
The evolution of the antiferromagnetic structure of the terbium titanium oxysulfide Tb2Ti2S2O5 between 5K and 1.4K
Lafond A, Leynaud O, Andre G, Bouree F, Caldes M, Meerschaut A |
| 391 - 394 |
Presence of a spin glass state in antiferromagnetic Tb2CuIn3
Siouris IM, Semitelou IP, Yakinthos JK, Schafer W |
| 397 - 400 |
Temperature dependence of lattice parameters in martensite and effect of the external magnetic field on martensite structure in Ni2MnGa studied in situ with neutron diffraction
Glavatska N, Mogylnyy G, Danilkin S, Hohlwein D |
| 401 - 404 |
Thermal expansion and excess properties of akermanite-gehlenite synthetic solid solution series
Proverbio M, Dapiaggi M, Artioli G |
| 407 - 410 |
Indinavir: A rare urinary stone in HIV-1-infected patients - Occurrence and crystal properties
Tessadri R, Griesser UJ, Prillinger M, Wurst K |
| 411 - 414 |
Docetaxel (Taxotere (R) Trihydrate) forms: Crystal structure determination from XRPD & XRSCD data
Zaske L, Perrin MA, Daiguebonne C, Guillou O |
