Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-02T22:03:58.475Z Has data issue: false hasContentIssue false
  • English
  • Français

On the Preparation of Good Quality X-ray Powder Patterns

Published online by Cambridge University Press:  06 March 2019

D. B. Sullenger ,
J. S. Cantrell ,
T. A. Beiter  and
D. W. Tomlin
D. B. Sullenger
Affiliation:
Monsanto Research Corporarion-Mound, Miamisburg, Ohio 45343
J. S. Cantrell
Affiliation:
Monsanto Research Corporation-Mound, Miamisburg, Ohio 45343 and Chemistry Department, Miami University, Oxford, Ohio 45056
T. A. Beiter
Affiliation:
Monsanto Research Corporation-Mound, Miamisburg, Ohio 45343 and Chemistry Department, Miami University, Oxford, Ohio 45056
D. W. Tomlin
Affiliation:
Monsanto Research Corporation-Mound, Miamisburg, Ohio 45343 and Chemistry Department, Miami University, Oxford, Ohio 45056
Get access

Extract

For several years we have prepared and submitted a variety of quality powder x-ray diffraction patterns to the International Centre for Diffraction Data (ICDD) for inclusion as reference standards in their Powder Diffraction File (PDF). Patterns submitted and/or currently under development include metal hydrides (inorganics), flavanoids and related compounds (organics), organic compounds involved in pollution (e.g., dioxins), explosives (organics and metal organics) and glass-ceramic phases (inorganics).

Type
IX. Qualitative and Quantitative Phase Analysis Diffraction Applications
Information
Advances in X-Ray Analysis , Volume 32: Thirty-Seventh Annual Conference on Applications of X-ray Analysis, August 1-5, 1988 , 1988 , pp. 561 - 567
Copyright
Copyright © International Centre for Diffraction Data 1988

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. “Powder Diffraction File,” JCPDS - International Centre for Diffraction Data, 1601 Park Lane, Swarthmore, PA 19801.Google Scholar
2. Design of cells was by Nichols, M.C. and associates, Sandia National Laboratories, Livermore, CA; fabrication was at MRC-Mound,Google Scholar
3. Goehner, R.P., SPECPLOT - An Interactive Data Reduction and Display Program for Spectral Data, in: “Advances in X-ray Analyses,” Rhodes, J.R., Barrett, C.S., Leyden, D.E., Newkirk, J.B., Predecki, P.K. and Ruud, C.O., eds, Plenum Pub. Co, New York, (1980), vol, 23, 305311.Google Scholar
4. Program, Lattice, adapted by Jendrek, E.F. (MRC-Mound) from a program originally written by Appleman, D.E. and Evans, H.T., USGS-GD-73-003, U.S. Geological Survey Report, Washington D.C. , (1973).Google Scholar
5. Smith, D.K., Nichols, M.C. and Zolinsky, M.E., “Powd, A Fortran IV Program for Calculating X-Ray Powder Diffraction Patterns - Version 10”, Pennsylvania State University, University Park, PA (March, 1983). MRC-Mound version adapted by Jendrek, E.F..Google Scholar
6. Rundle, R.E., The Structure of Uranium Hydride and Deuteride, J. Am. Chem. Soc. 69:1719(1947).Google Scholar
7. Rundle, R.E., The Hydrogen Positions in Uranium Hydride by Neutron Diffraction, J. Am. Chem. Soc. 73:4172 (1951).Google Scholar
8. Johnson, Q., Biel, T.J. and Leider, H.R., Isotopic Shifts of the Unit Cell Constants of the α and β Trihydrides of Uranium: UH3, UD3, UT3, J. Nucl. Mater. 60:23 (1976).Google Scholar
9. Bartscher, W., Boeuf, A., Caciuffo, R., Fournier, J.M., Kuhs, W.F., Rebizant, J., and Rustichelli, F., Neutron Diffraction Study of β-UD3 and β-UH3. Solid State Commun. 53:423 (1985).Google Scholar
10. Smith, G.S. and Snyder, R.L., FN: A Criterion for Powder Diffraction Patterns and Evaluating the Reliability o f Powder-Pattern Indexing. J. Appl. Cryst. 12: 60(1979).Google Scholar
11. Zintl, E. and Harder, A., Constitution of Alkaline Earth Hydrides, Z. Elektrochem, 41:33 (1935).Google Scholar
12. Liebau, F., Investigations of Layer Silicates of the Formula Type Am(Si2 O5)n, I. The Crystal Structure of the Room Temperature Form of Li2Si2O5, Acta Cryst. 14: 389 (1961).Google Scholar
13. Kracek, F.C., The Binary System Li2O-SiO2, J. Phys. Chem. 34:2641 (1930).Google Scholar
14. Donnay, G. and Donnay, J.D.H., Crystal Geometry of Some Alkali Silicates, Am. Mineralogist 38: 163 (1953).Google Scholar
15. Glasser, F.P., Crystallization of Lithium Disilicate from Li2O SiO2 Glasses, Phys. Chem. Glasses. 8:224 (1967).Google Scholar
16. Graeber, E.J. and Morosin, B., The Crystal Structures of 2,2',4,4',6,6'- Hexanitroazobenzene (HNAB), Forms I and II, Acta Cryst. B30: 310 (1974).Google Scholar
17. Swepston, P.H., Molecular Structure Corp. , College Station, TX, Private Communication (November 24,1987).Google Scholar