Result for query "powder"

File //sincris/iucr/abstracts/cga17.html

File //sincris/iucr/abstracts/keynote/index.html

line 85: (D0081) MODERN POWDER DIFFRACTION IN MATERIALS SCIENCE

File //sincris/iucr/abstracts/title/01.02.html

line 83: (E0840) CURVED IMAGE-PLATES FOR SYNCHROTRON RADIATION HIGH RESOLUTION POWDER DIFFRACTION AND STUDIES OF AMORPHOUS SYSTEMS
line 113: (E1176) VACUUM CHAMBER FOR SYNCHROTRON POWDER DIFFRACTION
line 128: (S0152) NEW HIGH- AND LOW-TEMPERATURE FACILITIES FOR POWDER DIFFRACTION AT DARESBURY LABORATORY

File //sincris/iucr/abstracts/title/01.05.html

File //sincris/iucr/abstracts/title/01.07.html

line 57: (E0230) LOW-MELTING POINT ORGANIC CRYSTAL STRUCTURES BY HIGH RESOLUTION NEUTRON POWDER DIFFRACTION

File //sincris/iucr/abstracts/title/01.09.html

File //sincris/iucr/abstracts/title/02.03.html

line 47: (E0111) CRYSTAL STRUCTURES FROM POWDER DATA BY DIRECT METHODS

File //sincris/iucr/abstracts/title/02.05.html

File //sincris/iucr/abstracts/title/10.08.html

File //sincris/iucr/abstracts/title/10.09.html

File //sincris/iucr/abstracts/title/10.13.html

line 81: (E1064) NEUTRON POWDER DIFFRACTION OF OPERATING ELECTROCHEMICAL CELLS CONTAINING LaNi5-YAlYDX ELECTRODES

File //sincris/iucr/abstracts/title/11.04.html

line 74: (E1353) REACTION KINETICS ON FORMATION OF In- AND Zr, Ca- SUBSTITUTED YIGs BY in situ POWDER XRD

File //sincris/iucr/abstracts/title/11.05.html

File //sincris/iucr/abstracts/title/15.01.html

line 107: (E1454) COMPOSITE GERMANIUM CRYSTALS WITH ANISOTROPIC MOSAIC AS A FOCUSSING MONOCHROMATOR FOR NEUTRON POWDER DIFFRACTION

File //sincris/iucr/abstracts/title/15.02.html

line 33: (E0036) THE FIRST MEASUREMENTS OF A PURE MAGNETIC POWDER REFLECTION WITH X-RAYS

File //sincris/iucr/abstracts/title/18.03.html

File //sincris/iucr/abstracts/title/18.06.html

File //sincris/iucr/abstracts/title/19.html

line 42: (S0650) STRUCTURAL DETERMINATION OF THE LOW TEMPERATURE PHASES OF GLOBULAR ORGANIC MOLECULES BY POWDER X-RAY DIFFRACTION

File //sincris/iucr/abstracts/title/25.00.html

line 12: (E1107) THE USE OF ZONE CONTROL CHARTS IN QUANTITATIVE X-RAY POWDER PHASE ANALYSIS TO INSURE QUALITY CONTROL

File //sincris/iucr/abstracts/title/WK.CF.html

line 83: (E0729) INTRODUCTION TO THE CIF POWDER DEFINITIONS

File //sincris/iucr/abstracts/title/11.05a.html

File //sincris/iucr/abstracts/abstracts/E0003.html

File //sincris/iucr/abstracts/abstracts/E0007.html

File //sincris/iucr/abstracts/abstracts/E0028.html

line 9: Conventional diffraction/refinement techniques (e.g. Rietveld-powder) can yield

File //sincris/iucr/abstracts/abstracts/E0056.html

File //sincris/iucr/abstracts/abstracts/E0111.html

File //sincris/iucr/abstracts/abstracts/E0119.html

File //sincris/iucr/abstracts/abstracts/E0130.html

line 4: ANOMALOUS SCATTERING POWDER DIFFRACTION: A VERSATILE TOOL . A. P.

File //sincris/iucr/abstracts/abstracts/E0141.html

File //sincris/iucr/abstracts/abstracts/E0188.html

File //sincris/iucr/abstracts/abstracts/E0193.html

line 22: the need of the students. The powder and electron diffraction techniques are

File //sincris/iucr/abstracts/abstracts/E0280.html

line 6: O2-CLATHRATES AS A FUNCTION OF PRESSURE BY NEUTRON POWDER

File //sincris/iucr/abstracts/abstracts/E0294.html

line 12: Acid Database, the Crystal Data Identification File, and the Powder Diffraction

File //sincris/iucr/abstracts/abstracts/E0295.html

File //sincris/iucr/abstracts/abstracts/E0528.html

File //sincris/iucr/abstracts/abstracts/E0584.html

line 8: Fe--Ni alloys after laser heating were investigated by X-ray powder

File //sincris/iucr/abstracts/abstracts/E0611.html

File //sincris/iucr/abstracts/abstracts/E0635.html

line 16: structure was determined from X-ray powder diffraction data.

File //sincris/iucr/abstracts/abstracts/E0667.html

File //sincris/iucr/abstracts/abstracts/E0690.html

line 22: conventional X-ray powder diffractometer. Both sets of samples show an increase

File //sincris/iucr/abstracts/abstracts/D0004.html

File //sincris/iucr/abstracts/abstracts/D0077.html

line 14: I4/mmm. We have examined by neutron powder diffraction the ternaries

File //sincris/iucr/abstracts/abstracts/D0081.html

File //sincris/iucr/abstracts/abstracts/D0082.html

File //sincris/iucr/abstracts/abstracts/D0088.html

File //sincris/iucr/abstracts/abstracts/D0108.html

line 14: powder diffraction. These alloys in the equilibrium state at RT are two-phase

File //sincris/iucr/abstracts/abstracts/D0118.html

File //sincris/iucr/abstracts/abstracts/E0333.html

line 12: type salts (A=K, Rb, Cs) were determined from x-ray powder diffraction.

File //sincris/iucr/abstracts/abstracts/E0544.html

File //sincris/iucr/abstracts/abstracts/E0547.html

File //sincris/iucr/abstracts/abstracts/E0556.html

File //sincris/iucr/abstracts/abstracts/E0564.html

line 25: data. Non-ideal powders, with texture, or maybe deviatoric stress make

File //sincris/iucr/abstracts/abstracts/E0580.html

File //sincris/iucr/abstracts/abstracts/E0652.html

line 11: Deviatoric stresses are generated by compressing a polycrystalline powder as a

File //sincris/iucr/abstracts/abstracts/E0711.html

File //sincris/iucr/abstracts/abstracts/E0729.html

File //sincris/iucr/abstracts/abstracts/E0743.html

File //sincris/iucr/abstracts/abstracts/E0756.html

File //sincris/iucr/abstracts/abstracts/E0900.html

line 25: standard powder sample, may be required.

File //sincris/iucr/abstracts/abstracts/E0919.html

line 14: of producing high- quality powder diffraction data to pressures up to 15 GPa

File //sincris/iucr/abstracts/abstracts/E0969.html

File //sincris/iucr/abstracts/abstracts/E0975.html

File //sincris/iucr/abstracts/abstracts/E1032.html

line 13: spectra (several sec for powder samples), it is possible to follow evolution of

File //sincris/iucr/abstracts/abstracts/E1034.html

File //sincris/iucr/abstracts/abstracts/E1036.html

line 25: time-resolved small-angle neutron scattering and neutron powder diffraction

File //sincris/iucr/abstracts/abstracts/E1039.html

File //sincris/iucr/abstracts/abstracts/E1049.html

File //sincris/iucr/abstracts/abstracts/E1064.html

File //sincris/iucr/abstracts/abstracts/E1174.html

line 23: scattering, powder diffraction and disordered crystals. The course is

File //sincris/iucr/abstracts/abstracts/E1203.html

File //sincris/iucr/abstracts/abstracts/E1212.html

File //sincris/iucr/abstracts/abstracts/E1232.html

File //sincris/iucr/abstracts/abstracts/E1287.html

line 12: laboratory device, using channeltron. The powder was checked by X-ray

File //sincris/iucr/abstracts/abstracts/E1307.html

File //sincris/iucr/abstracts/abstracts/E1308.html

line 24: measurements can be compared to various powder x-ray diffraction works.

File //sincris/iucr/abstracts/abstracts/E1353.html

File //sincris/iucr/abstracts/abstracts/E1354.html

line 11: Italy were analysed by X-ray powder diffraction and by a scanning electron

File //sincris/iucr/abstracts/abstracts/S0019.html

File //sincris/iucr/abstracts/abstracts/S0048.html

line 11: four-dimensional superspace group pR31ms using the powder

File //sincris/iucr/abstracts/abstracts/S0062.html

line 20: thiophene, stilbene, polyphenyl, polyacetylene). SHG powder tests revealed that

File //sincris/iucr/abstracts/abstracts/S0099.html

File //sincris/iucr/abstracts/abstracts/S0122.html

File //sincris/iucr/abstracts/abstracts/S0127.html

File //sincris/iucr/abstracts/abstracts/S0130.html

File //sincris/iucr/abstracts/abstracts/S0133.html

File //sincris/iucr/abstracts/abstracts/S0145.html

File //sincris/iucr/abstracts/abstracts/S0147.html

File //sincris/iucr/abstracts/abstracts/S0150.html

line 17: x-ray powder diffraction, similar high-pressure phases have been observed to

File //sincris/iucr/abstracts/abstracts/S0152.html

File //sincris/iucr/abstracts/abstracts/S0159.html

line 13: treatable high pressure cell of the piston-cylinder type for neutron powder

File //sincris/iucr/abstracts/abstracts/S0169.html

line 20: simulated powder diffraction one. A highly (001) prefer oriented

File //sincris/iucr/abstracts/abstracts/S0172.html

line 24: We have studied this reaction using time resolved powder diffraction, EXAFS

File //sincris/iucr/abstracts/abstracts/S0179.html

File //sincris/iucr/abstracts/abstracts/S0188.html

File //sincris/iucr/abstracts/abstracts/S0220.html

line 10: was determined by the maximum entropy method (MEM) with the aid of powder X-ray

File //sincris/iucr/abstracts/abstracts/S0221.html

File //sincris/iucr/abstracts/abstracts/S0222.html

File //sincris/iucr/abstracts/abstracts/S0245.html

File //sincris/iucr/abstracts/abstracts/S0257.html

line 10: EMD is used as a cathode material in batteries. X-ray powder diffraction was

File //sincris/iucr/abstracts/abstracts/S0264.html

File //sincris/iucr/abstracts/abstracts/S0314.html

line 15: C) are determined using powder neutron diffraction. Refinements using Rietveld

File //sincris/iucr/abstracts/abstracts/S0423.html

line 23: The neutron powder refinement was made for monophasic

File //sincris/iucr/abstracts/abstracts/S0425.html

line 20: compared with recent high-pressure time-of-flight neutron powder diffraction

File //sincris/iucr/abstracts/abstracts/S0436.html

line 26: (Ca,Sr)O phase was formed. When Ag powder was well mixed with the the sample,

File //sincris/iucr/abstracts/abstracts/S0450.html

File //sincris/iucr/abstracts/abstracts/S0451.html

line 28: their ideal (cubic) arrangement. Based on the similarity of xray powder

File //sincris/iucr/abstracts/abstracts/S0473.html

line 38: information can be used for structural determination with powder diffraction

File //sincris/iucr/abstracts/abstracts/S0481.html

line 22: upon further intercalation, powder diffraction identifies an increasing

File //sincris/iucr/abstracts/abstracts/S0485.html

File //sincris/iucr/abstracts/abstracts/S0495.html

line 19: Fe2O3 powder of large particle size (1 um), and small

File //sincris/iucr/abstracts/abstracts/S0500.html

File //sincris/iucr/abstracts/abstracts/S0507.html

line 14: Rietveld refinement of powder X-ray data. The calculated Ti3+

File //sincris/iucr/abstracts/abstracts/S0512.html

line 22: [Vo ] = [CaY']/2 ). Rietveld powder-profile analysis of

File //sincris/iucr/abstracts/abstracts/S0515.html

line 14: powder diffraction patterns, as a consequence of disorder and very large

File //sincris/iucr/abstracts/abstracts/S0533.html

line 38: the experimental powder diffraction data.

File //sincris/iucr/abstracts/abstracts/S0550.html

line 20: sample was oxidized at 345 deg.C for 2 hours and studied by powder neutron

File //sincris/iucr/abstracts/abstracts/S0553.html

line 17: Zr. The EXAFS spectra of the powdered sample near the Y and Zr K absorption

File //sincris/iucr/abstracts/abstracts/S0562.html

line 21: from powder diffraction of lithiated V6O13 must be

File //sincris/iucr/abstracts/abstracts/S0563.html

line 22: In this study, a neuton structure determination of a powder sample containing

File //sincris/iucr/abstracts/abstracts/D0030.html

File //sincris/iucr/abstracts/abstracts/D0143.html

line 26: DSC-microcalorimetry and synchrotron powder diffraction data. We report here on

File //sincris/iucr/abstracts/abstracts/E0019.html

File //sincris/iucr/abstracts/abstracts/E0230.html

File //sincris/iucr/abstracts/abstracts/E0289.html

line 13: experiments have been performed both for powders and single crystals in the

File //sincris/iucr/abstracts/abstracts/E0613.html

File //sincris/iucr/abstracts/abstracts/E0783.html

File //sincris/iucr/abstracts/abstracts/E0874.html

File //sincris/iucr/abstracts/abstracts/E0890.html

line 10: gallides REGa2 (RE = Tm, Er, Ho) by means of x-ray powder

File //sincris/iucr/abstracts/abstracts/E0896.html

line 11: refinement of x-ray powder data.

File //sincris/iucr/abstracts/abstracts/E1083.html

File //sincris/iucr/abstracts/abstracts/E1224.html

line 18: The structure has been solved using powder X-ray and neutron diffraction data

File //sincris/iucr/abstracts/abstracts/E1225.html

File //sincris/iucr/abstracts/abstracts/E1314.html

File //sincris/iucr/abstracts/abstracts/E1320.html

line 29: powder diffraction and an IP at beamline X7B. From these results, information

File //sincris/iucr/abstracts/abstracts/E1321.html

line 26: The interface on the cement paste side was analyzed by powder diffractometer

File //sincris/iucr/abstracts/abstracts/S0363.html

line 9: traditional X-ray powder diffraction quantitative analysis methods. SiC

File //sincris/iucr/abstracts/abstracts/S0585.html

File //sincris/iucr/abstracts/abstracts/S0587.html

line 13: (Uppsala, Sweden). Data from powder samples have been collected in the range

File //sincris/iucr/abstracts/abstracts/S0596.html

File //sincris/iucr/abstracts/abstracts/S0600.html

line 26: Variable-temperature powder magnetic susceptibility data confirm the presence

File //sincris/iucr/abstracts/abstracts/S0629.html

File //sincris/iucr/abstracts/abstracts/S0644.html

File //sincris/iucr/abstracts/abstracts/S0650.html

File //sincris/iucr/abstracts/abstracts/S0676.html

File //sincris/iucr/abstracts/abstracts/S0678.html

line 11: and sodium hydrochloride solution with alumina powder. The GaAs samples used

File //sincris/iucr/abstracts/abstracts/S0679.html

File //sincris/iucr/abstracts/abstracts/S0683.html

line 29: sophisticated technique was contrived. Powder of LaMeO3 perovskite

File //sincris/iucr/abstracts/abstracts/S0689.html

File //sincris/iucr/abstracts/abstracts/S0697.html

line 28: electron density around the center of the cavity. 2H-NMR powder

File //sincris/iucr/abstracts/abstracts/S0709.html

File //sincris/iucr/abstracts/abstracts/S0712.html

line 5: X-RAY POWDER DATA:THE CHIRAL COMPOUND L-CARVONE. C.Miravitlles*, J.Rius*,

File //sincris/iucr/abstracts/abstracts/S0720.html

File //sincris/iucr/abstracts/abstracts/S0756.html

line 30: parallel structural refinements with E.D. and X-ray powder diffraction data may

File //sincris/iucr/abstracts/abstracts/S0758.html

File //sincris/iucr/abstracts/abstracts/S0782.html

line 15: B-factors we have included in the Rietveld refinement of a powder sample

File //sincris/iucr/abstracts/abstracts/D0061.html

line 21: structure was inferred from powder X-Ray diffraction data.

File //sincris/iucr/abstracts/abstracts/E0034.html

line 14: diamond) in combination with various metallic gaskets serve to clamp a powder

File //sincris/iucr/abstracts/abstracts/E0036.html

File //sincris/iucr/abstracts/abstracts/E0046.html

line 29: powder diffraction data.

File //sincris/iucr/abstracts/abstracts/E0067.html

File //sincris/iucr/abstracts/abstracts/E0245.html

line 28: deuterated mixed powder (x(0.6), structural changes were studied in the

File //sincris/iucr/abstracts/abstracts/E0258.html

line 9: EMD is used as a cathode material in batteries. X-ray powder diffraction was

File //sincris/iucr/abstracts/abstracts/E0334.html

line 19: x-ray powder diffraction and differential thermal analysis. The structural

File //sincris/iucr/abstracts/abstracts/E0335.html

line 21: x-ray powder diffraction, The composition of inclusion was determined as

File //sincris/iucr/abstracts/abstracts/E0336.html

line 29: following new facilities: a) simulation of powder diffraction patterns; b)

File //sincris/iucr/abstracts/abstracts/E0367.html

line 23: pattern. Typical exposure time is 5 min. Powder diffraction experiments were

File //sincris/iucr/abstracts/abstracts/E0370.html

line 26: DSC and multitemperature powder X-ray data are discussed together with the data

File //sincris/iucr/abstracts/abstracts/E0397.html

line 11: conventional Rietveld method with x-ray powder diffraction data. The structure

File //sincris/iucr/abstracts/abstracts/E0403.html

File //sincris/iucr/abstracts/abstracts/E0416.html

File //sincris/iucr/abstracts/abstracts/E0418.html

line 12: complexes can be prepared simply by mixing both powders of amphiphiles and

File //sincris/iucr/abstracts/abstracts/E0422.html

File //sincris/iucr/abstracts/abstracts/E0423.html

line 22: diffraction studies of powder samples to ~1.2GPa and ~800K.

File //sincris/iucr/abstracts/abstracts/E0450.html

line 16: - treatment of powder data

File //sincris/iucr/abstracts/abstracts/E0451.html

File //sincris/iucr/abstracts/abstracts/E0455.html

line 13: studied by X-ray powder diffraction and high resolution transmission electron

File //sincris/iucr/abstracts/abstracts/E0456.html

line 13: temperature-dependent X-ray powder diffraction. Crystals for structure

File //sincris/iucr/abstracts/abstracts/E0460.html

line 15: spin orderings are consistent with the same distribution of powder or single

File //sincris/iucr/abstracts/abstracts/E0638.html

File //sincris/iucr/abstracts/abstracts/E0801.html

line 18: powders and single crystals in order to clearify contradictions in the

File //sincris/iucr/abstracts/abstracts/E0806.html

line 10: neutron powder diffraction, under uniaxial compressive stresses to 1.6 GPa. At

File //sincris/iucr/abstracts/abstracts/E0811.html

line 19: although powder diffraction rings with preferred orientation were also observed

File //sincris/iucr/abstracts/abstracts/E0814.html

File //sincris/iucr/abstracts/abstracts/E0831.html

File //sincris/iucr/abstracts/abstracts/E0840.html

File //sincris/iucr/abstracts/abstracts/E0952.html

File //sincris/iucr/abstracts/abstracts/E0987.html

File //sincris/iucr/abstracts/abstracts/E0994.html

File //sincris/iucr/abstracts/abstracts/E0998.html

line 17: coordinates are used to simulate the results of a powder diffraction

File //sincris/iucr/abstracts/abstracts/E1107.html

line 4: THE USE OF ZONE CONTROL CHARTS IN QUANTITATIVE X-RAY POWDER PHASE ANALYSIS

File //sincris/iucr/abstracts/abstracts/E1134.html

line 16: The powder patterns were found to contain additional very weak peaks (maximum

File //sincris/iucr/abstracts/abstracts/E1168.html

line 11: X-ray powder diffraction experiment with an Imaging Plate as a two-dimensional

File //sincris/iucr/abstracts/abstracts/E1176.html

File //sincris/iucr/abstracts/abstracts/E1278.html

line 13: PrBa2Cu4O8 has been refined from X-ray powder

File //sincris/iucr/abstracts/abstracts/E1404.html

File //sincris/iucr/abstracts/abstracts/S0009.html

line 26: methods of structure determination; powder crystallography etc.). New trend

File //sincris/iucr/abstracts/abstracts/S0187.html

File //sincris/iucr/abstracts/abstracts/E0239.html

line 13: were investigated by means of x-ray powder diffraction and magnetic

File //sincris/iucr/abstracts/abstracts/E0432.html

line 14: powder diffraction.

File //sincris/iucr/abstracts/abstracts/E0458.html

File //sincris/iucr/abstracts/abstracts/E0464.html

File //sincris/iucr/abstracts/abstracts/E0533.html

File //sincris/iucr/abstracts/abstracts/E0661.html

File //sincris/iucr/abstracts/abstracts/E0662.html

File //sincris/iucr/abstracts/abstracts/E1181.html

line 19: structural modifications have been characterized by neutron powder diffraction

File //sincris/iucr/abstracts/abstracts/E1425.html

line 32: of 5.43088(4) calculated by powder diffraction of NBS Standard Reference

File //sincris/iucr/abstracts/abstracts/E1433.html

line 10: High-resolution synchrotron x-ray powder diffraction experiments of a

File //sincris/iucr/abstracts/abstracts/S0446.html

File //sincris/iucr/abstracts/abstracts/E0209.html

line 11: cell at the Intense Pulsed Neutron Source (Special Environment Powder

File //sincris/iucr/abstracts/abstracts/E0506.html

File //sincris/iucr/abstracts/abstracts/E1179.html

File //sincris/iucr/abstracts/abstracts/E1190.html

line 14: structure is of the wurtzite type rather than of the sphalerite type. Powder

File //sincris/iucr/abstracts/abstracts/E1330.html

line 11: analyzed to compare with previous studies on sintered powder samples. Results

File //sincris/iucr/abstracts/abstracts/E1402.html

line 22: Investigative methods include CBED and Rietveld refinements of powder x-ray

File //sincris/iucr/abstracts/abstracts/E0394.html

line 30: crystallography in biology, radiography, powder diffractometer, small angle

File //sincris/iucr/abstracts/abstracts/E1283.html

File //sincris/iucr/abstracts/abstracts/E1442.html

File //sincris/iucr/abstracts/abstracts/E1454.html

Summary for query `"powder":`

found 460 matches in 226 files

Result for query "powder"

File //sincris/iucr/abstracts/cga17.html

File //sincris/iucr/abstracts/keynote/index.html

File //sincris/iucr/abstracts/title/01.02.html

File //sincris/iucr/abstracts/title/01.05.html

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File //sincris/iucr/abstracts/title/11.04.html

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File //sincris/iucr/abstracts/title/15.01.html

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File //sincris/iucr/abstracts/title/WK.CF.html

File //sincris/iucr/abstracts/title/11.05a.html

File //sincris/iucr/abstracts/abstracts/E0003.html

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