Guofang Zhong, Fazheng Shen, Fanxiu Lü, and Weizhong Tang, Preparation and Characterization of High Quality Diamond Films by DC Arc Plasma Jet CVD Method, J. Univ. Sci. Technol. Beijing, 6(1999), No. 4, pp. 281-284.
Cite this article as:
Guofang Zhong, Fazheng Shen, Fanxiu Lü, and Weizhong Tang, Preparation and Characterization of High Quality Diamond Films by DC Arc Plasma Jet CVD Method, J. Univ. Sci. Technol. Beijing, 6(1999), No. 4, pp. 281-284.
Guofang Zhong, Fazheng Shen, Fanxiu Lü, and Weizhong Tang, Preparation and Characterization of High Quality Diamond Films by DC Arc Plasma Jet CVD Method, J. Univ. Sci. Technol. Beijing, 6(1999), No. 4, pp. 281-284.
Citation:
Guofang Zhong, Fazheng Shen, Fanxiu Lü, and Weizhong Tang, Preparation and Characterization of High Quality Diamond Films by DC Arc Plasma Jet CVD Method, J. Univ. Sci. Technol. Beijing, 6(1999), No. 4, pp. 281-284.
Material Science and Engineering School, University of Science and Technology Beijing, Beijing 100083, China
中文摘要
Under optimal conditions free-standing high quality diamond films were prepared by DC arc plasma jet CVD method at a growth rate of 7-10 μm/h. Surface and cross section morphologies of the diamond films were observed by SEM. Raman spectrometer was used to characterize the quality of diamond films. The IR transmittivity measured by IR spectrometer is close to the theoretical value of about 71% in the far infrared band. The thermal conductivity measured by photothermal deflection exceeds 18 W/cm·K. <l 10> is the preferential growth orientation of the films detected by X-ray diffractometer. As s result, the extremely high temperature of DC arc plasma jet can produce supersaturated atomic hydrogen, which played an important role in the process for the deposition of high quality diamond films.
Under optimal conditions free-standing high quality diamond films were prepared by DC arc plasma jet CVD method at a growth rate of 7-10 μm/h. Surface and cross section morphologies of the diamond films were observed by SEM. Raman spectrometer was used to characterize the quality of diamond films. The IR transmittivity measured by IR spectrometer is close to the theoretical value of about 71% in the far infrared band. The thermal conductivity measured by photothermal deflection exceeds 18 W/cm·K. <l 10> is the preferential growth orientation of the films detected by X-ray diffractometer. As s result, the extremely high temperature of DC arc plasma jet can produce supersaturated atomic hydrogen, which played an important role in the process for the deposition of high quality diamond films.
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