By John S. McCloy, Randal W. Tustison
Zinc sulfide has proven unequaled application for infrared home windows that require a mix of long-wavelength infrared transparency, mechanical sturdiness, and elevated-temperature functionality. This e-book reports the actual houses of chemical vapor deposited ZnS and their dating to the CVD method that produced them. An in-depth examine the cloth microstructure is integrated, besides a dialogue of the material's optical homes. eventually, as the CVD technique itself is relevant to the improvement of this fabric, a short heritage is gifted.
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Additional info for Chemical Vapor Deposited Zinc Sulfide
Sci. and Eng. R: Reports 21(1), 1–46 (1997). 55. , S. Kitagawa, H. Iwata, and Y. Sasaki, “Structure and resistivity of heat-treated polycrystalline zinc sulfide prepared by chemical vapor deposition,” J. Crystal Growth 134, 67–74 (1993). 56. Thomas, A. , G. J. Russell, and J. Woods, “Preparation of LowResistivity Zinc Sulphide,” J. Crystal Growth 63, 265–275 (1983). 57. , D. Wehe, and J. S. King, “Phonon dispersion and phonon densities of states for ZnS and ZnTe,” J. Chem. Phys. 60(9), 3613–3618 (1974).
And E. Banks, “The Role of Copper in the Transformation of Hexagonal Zinc Sulfide,” J. Electrochem. Soc. 114(11), 1143–1148 (1967). 95. , P. Goldberg, and D. H. Baird, “The Influence of Copper on Structural Transformations in ZnS:Cu,Cl,” J. Electrochem. Soc. 110(12), 1228–1230 (1963). 96. , M. Ohta, M. Satoh, and T. Hirabayashi, “The Phase Transformation during Crystallization of ZnS,” J. Electrochem. Soc. 124(4), 550–553 (1977). 97. , G. Changxin, L. Bilin, and T. Shun, “A high-resolution electron microscopy study of microstructure of ZnS powder phosphors with different dopants,” Philosophical Magazine A 62(4), 387–394 (1990).
B 69, 014301-1–04301-11 (2004). 71. , H. Mao, Y. Sun, and Y. Du, “Surface vibrational mode of ZnS nanoparticles,” J. Vac. Sci. Technol. B 15(4), 1465–1467 (1997). 72. Yen, W. , S. Shionoya, and H. , Laser and Optical Science and Technology Series, CRC Press, Boca Raton, FL (2007). 73. , “Thermodynamic Estimations of Defect Equilibria and Vacancy Concentrations in ZnS,” Zeitschrift für anorganische und allgemeine Chemie 632(10-11), 1717–1727 (2006). 74. Morozova, N. K. and O. N. Morozova, “Phase Diagram of Equilibrium Point Defects and Deviations from Stoichiometry in Zinc Sulfide,” Inorg.
Chemical Vapor Deposited Zinc Sulfide by John S. McCloy, Randal W. Tustison