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Standard X-Ray Diffraction Powder Patterns from the JCPDS Research Associateship

Published online by Cambridge University Press:  10 January 2013

Howard F. McMurdie
Affiliation:
JCPDS — International Centre for Diffraction Data
Marlene C. Morris
Affiliation:
JCPDS — International Centre for Diffraction Data
Eloise H. Evans
Affiliation:
JCPDS — International Centre for Diffraction Data
Boris Paretzkin
Affiliation:
JCPDS — International Centre for Diffraction Data
Winnie Wong-Ng
Affiliation:
JCPDS — International Centre for Diffraction Data
Yuming Zhang
Affiliation:
JCPDS — International Centre for Diffraction Data
Camden R. Hubbard
Affiliation:
Institute for Materials Science and Engineering, National Bureau of Standards

Extract

The following new or updated patterns are submitted by the JCPDS Research Associateship at the National Bureau of Standards. The patterns are a continuation of the series of standard X-ray diffraction powder patterns published previously in the NBS Circular 539, the NBS Monograph 25, and in this journal. The methods of producing these reference patterns are described in this journal, Vol. 1, No. 1, p. 40 (1986).

The data for each phase apply to the specific sample described. A sample was mixed with one or two internal standards: silicon (SRM640a), silver, tungsten, or fluorophlogopite (SRM675). Expected 2-theta values for these standards are specified in the methods described (ibid.). Data, from which the reported 2-theta values were determined, were measured with a computer controlled diffractometer. Computer programs were used to locate peak positions and calibrate the patterns as well as to perform variable indexing and least squares cell refinement. A check on the overall internal consistency of the data was also provided by a computer program.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1986

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References

References

1.Ueda, R. (1948) X-Sen (X-Rays) 5, 21.CrossRefGoogle Scholar
2.Keeling, R. O. and Pepinsky, R. (1955) Z. Kristallogr., Kristallgeom., Kristallphys., Kristallchem. 106, 236.Google Scholar
1.Koelmans, H. and Verhagen, C. M. (1959). J. Electrochem. Soc. 106, 677.CrossRefGoogle Scholar
2.Warren, B. E. (1930). Z. Kristallogr., Kristallgeom., Kristallphys., Kristallchem. 74, 131.Google Scholar
3.Sirazhiddinov, N. A., Mirababaeva, N. N., Grebenshchikov, R. G., and Stroganov, E. V. (1974). Russ. J. Inorg. Chem. (Engl. Transl.). 19, 817.Google Scholar
1.Millet, J. M., Roth, R. S., Ettlinger, L. D., and Parker, H. S.. J. Solid State Chem. (To be published)Google Scholar
1.Moore, A. E. and Taylor, H. F. W. (1968). Nature (London) 218, 1085.Google Scholar
2.Moore, A. E. and Taylor, H. F. W. (1970). Acta Crystallogr. Sect. B 29, 386.CrossRefGoogle Scholar
3.Swanson, H. E., Gilfrich, N. T., Cook, M. I., Stinchfield, R., and Parks, P. C. (1959) Natl. Bur. Stand. (U.S.), Circ. 539 8, 3.Google Scholar
4.Murdoch, J., Univ. of California, Los Angeles, CA, Private Communications.Google Scholar
1.Warren, B. E. (1930). Z. Kristallogr., Kristallgeom., Kristallphys., Kristallchem. 74, 131.Google Scholar
2.Koelmans, H. and Verhagen, C. M. (1959) J. Electrochem. Soc. 106, 677.CrossRefGoogle Scholar
1.Teslyuk, M. Yu., Kripyakevich, P. I., and Frankevich, D. P. (1964). Kristallografiya 9, 558.Google Scholar
2.Wernick, J. H. and Haszko, S. E. (1961). J. Phys. Chem. Solids 18, 207.CrossRefGoogle Scholar
1.Liang, J. and Zhang, Y. (1984). Acta Phys. Sinica 33, 69.CrossRefGoogle Scholar
2.Liang, J. and Zhang, Y. (1983). Jour. Struc. Chem. (China) 2, 81.Google Scholar
1.Wittman, A. and Modern, E. (1965). Monatsh. Chem. 96, 581.CrossRefGoogle Scholar
2.Tranquil, D., Shannon, R. D., and Chen, H. Y. (1979). Acta Crystallogr. B35, 2479.CrossRefGoogle Scholar
3. Technisch Physische Dienst, Holland.Google Scholar
4.West, J. and Glasser, F. P. (1970) J. Mat. Sci 5, 676.CrossRefGoogle Scholar
1.Sabine, P. A. and Sergeant, G. A. (1968). Mineral. Mag. 36, 948.Google Scholar
1.Byström, A., Hök, B., and Mason, B. (1944). Ark. Kemi. Mineral. Geol. 158, No. 4Google Scholar
2.Bayer, G. (1962) Ber. Dtsch. Keram. Ges. 39, 535.Google Scholar
3.Mason, B. and Vitaliano, C. J. (1952). Am. Mineral. 37, 53.Google Scholar
1.Aurivillius, K. (1954). Acta. Chem. Scand. 8, 523.CrossRefGoogle Scholar
2.Aurivillius, K. (1956). Acta. Crystallogr. 9, 685.CrossRefGoogle Scholar
3.Lebeau, P. (1955). C. R. Hebd. Seances. Acad. Sci. 241, 802.Google Scholar
4.Swanson, H., Cook, M. I., Isaacs, T., and Evans, E. H. (1960). Nad. Bur. Stand. (U.S.), Circ. 539. 9, 39.Google Scholar
1.Gatehouse, B. M. and Wadsley, A. D. (1964) Acta Crystallogr. 17, 1545.CrossRefGoogle Scholar
2.Waring, J. L., Roth, R. S., and Parker, H. S. (1973) J. Res. Natl. Bur. Stand., Sec. A 77, 705.CrossRefGoogle Scholar
3.Wadsley, A. D. and Anderson, S. (1970) Perspectives in Structural Chemistry, 3, 1.Google Scholar
4.Roth, R. S. (1959) J. Res. Natl. Bur. Stand., Sec. A 62, 27.CrossRefGoogle Scholar
1.Seleborg, M. (1966). Acta Chem. Scand. 20, 2125.CrossRefGoogle Scholar
2.Caillet, P. (1967). Bull. Soc. Chim. Fr. 1967, 4750.Google Scholar
1.Gabelica-Robert, M. (1981). C. R. Seances Acad. Sci., Ser. 2. 293, 497.Google Scholar
2.Gabelica-Robert, M. University of Liege, Belgium. Private communication.Google Scholar
1.Gossner, B. and Mussgnug, F. (1929). Z. Kristallogr., Kristallgeom., Kristallphys., Kristallchem. 69, 446.Google Scholar
2.Nord, A. G. (1973) Acta Chem. Scand. 27, 814.CrossRefGoogle Scholar
3.Swanson, H. E. and Fuyat, R. K. (1953). Natl. Bur. Stand. (U.S.), Circ. 539. 2, 59.Google Scholar
1.Vaughan, P. and Donohue, J. (1952). Acta Crystallogr. 5, 530.CrossRefGoogle Scholar
2.Mendelsohn, M. (to be published).Google Scholar
3.Swanson, H. E., Gilfrich, N. T., and Cook, M. I. (1957). Natl. Bur. Stand. (U.S.), Circ. 539. 7, 61.Google Scholar
1.Zachariasen, W. H. (1926). Z. Phys. Chem. (Leipzig) 124, 436.Google Scholar
2.Pashinkin, A. S., Tishchenko, G. N., Korneeva, I. V., and Ryzhenko, B. N. (1960). Sov. Phys. Crystallogr. (Engl. Transl.) 5, 243.Google Scholar
3.Swanson, H. E., Fuyat, R. K., and Ugrinic, G. M. (1954). Natl. Bur. Stand. (U.S.). Circ. 539 3, 23.Google Scholar