Carrier transport characteristics of H-terminated diamond films prepared using molecular hydrogen and atomic hydrogen
来源期刊:International Journal of Minerals Metallurgy and Materials2017年第7期
论文作者:Jin-long Liu Liang-xian Chen Yu-ting Zheng Jing-jing Wang Zhi-hong Feng Cheng-ming Li
文章页码:850 - 856
摘 要:The H-terminated diamond films, which exhibit high surface conductivity, have been used in high-frequency and high-power electronic devices. In this paper, the surface conductive channel on specimens from the same diamond film was obtained by hydrogen plasma treatment and by heating under a hydrogen atmosphere, respectively, and the surface carrier transport characteristics of both samples were compared and evaluated. The results show that the carrier mobility and carrier density of the sample treated by hydrogen plasma are 15 cm2·V-1·s-1 and greater than 5 × 1012 cm-2, respectively, and that the carrier mobilities measured at five different areas are similar. Compared to the hydrogen-plasma-treated specimen, the thermally hydrogenated specimen exhibits a lower surface conductivity, a carrier density one order of magnitude lower, and a carrier mobility that varies from 2 to 33 cm2·V-1·s-1. The activated hydrogen atoms restructure the diamond surface, remove the scratches, and passivate the surface states via the etching effect during the hydrogen plasma treatment process, which maintains a higher carrier density and a more stable carrier mobility.
Jin-long Liu1,Liang-xian Chen1,Yu-ting Zheng1,Jing-jing Wang2,Zhi-hong Feng2,Cheng-ming Li1
1. Institute for Advanced Materials and Technology,University of Science and Technology Beijing2. Science and Technology on ASIC Laboratory,Hebei Semiconductor Research Institute
摘 要:The H-terminated diamond films, which exhibit high surface conductivity, have been used in high-frequency and high-power electronic devices. In this paper, the surface conductive channel on specimens from the same diamond film was obtained by hydrogen plasma treatment and by heating under a hydrogen atmosphere, respectively, and the surface carrier transport characteristics of both samples were compared and evaluated. The results show that the carrier mobility and carrier density of the sample treated by hydrogen plasma are 15 cm2·V-1·s-1 and greater than 5 × 1012 cm-2, respectively, and that the carrier mobilities measured at five different areas are similar. Compared to the hydrogen-plasma-treated specimen, the thermally hydrogenated specimen exhibits a lower surface conductivity, a carrier density one order of magnitude lower, and a carrier mobility that varies from 2 to 33 cm2·V-1·s-1. The activated hydrogen atoms restructure the diamond surface, remove the scratches, and passivate the surface states via the etching effect during the hydrogen plasma treatment process, which maintains a higher carrier density and a more stable carrier mobility.
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