Page 333 - Academic Press Encyclopedia of Physical Science and Technology 3rd Chemical Engineering
P. 333
P1: GSY/GSR/GLT P2: GLM Final Pages
Encyclopedia of Physical Science and Technology EN007E-968 June 30, 2001 17:35
High-Pressure Synthesis (Chemistry) 379
Bell, P. M., Mao, H. K., and Goettel, K. A. (1984). “Ultrahigh pressure: McWhan, D. B. (1972). “The pressure variable in materials research,”
beyond 2 megabars and the ruby fluorescence scale,” Science 226, Science 176, 751–758.
542–544. Mishima, O. et al. (1987). “Cubic BN light-emitting diode,” Science 238,
Bridgman, P. W. (1949). “The Physics of High Pressure,” Bell, London 181–183.
(Dover, New York, 1970). Pistorius, C. W. F. T. (1976). “Phase relations and structures of solids at
Bundy, F. P., Strong, H. M., and Wentorf, R. H., Jr. (1973). “Methods high pressures,” Prog. Solid State Chem. 11, 1–151.
and mechanisms of synthetic diamond growth,” In “Chemistry and Rigden, S. M., Ahrens, T. J., and Stolper, E. M. (1984). “Densities of
Physics of Carbon” (P. L. Walker, Jr. and P. A. Thrower, eds.), Vol. 10, liquid silicates at high pressure,” Science 226, 1071–1074.
pp. 213–263, Marcel Dekker, New York. Sunagawa, I., ed. (1984). “Materials Science of the Earth’s Interior,”
Homan, C., MacCrone, R. K., and Whalley, E., eds. (1984). “High pres- Terra Scientific Publ., Tokyo; Reidel Publ., Dordrecht, Holland.
sure in science and technology,” Parts I, II, III (Proc. AIRAPT Int. Wentorf, R. H., Jr., ed. (1974). “Advances in High-Pressure Research,”
High Pressure Conf., 9th, Albany), North–Holland, New York. Vol. 4, Academic Press, New York.
Jayaraman, A. (1984). “The diamond-anvil high pressure cell,” Sci. Am. Wentorf, R. H., Jr., DeVries, R. C., and Bundy, F. P. (1980). “Sintered
250 (4), 54–62. superhard materials,” Science 208, 873–880.
