In this study, growth of mirror-like ultra-nanocrystalline diamond(UNCD) films by a facile hybrid CVD approach was presented. The nucleation and deposition of UNCD films were conducted in microwave plasma CVD(MPCVD...In this study, growth of mirror-like ultra-nanocrystalline diamond(UNCD) films by a facile hybrid CVD approach was presented. The nucleation and deposition of UNCD films were conducted in microwave plasma CVD(MPCVD) and direct current glow discharge CVD(DC GD CVD) on silicon substrates, respectively. A very high nucleation density(about 1×10^11 nuclei cm^-2) was obtained after plasma pretreatment. Furthermore, large area mirrorlike UNCD films of Φ 50 mm were synthesized by DC GD CVD. The thickness and grain size of the UNCD films are 24 μm and 7.1 nm, respectively. In addition, the deposition mechanism of the UNCD films was discussed.展开更多
基金supported by the program of international S&T cooperation(Agreement No.S2015ZR1100)
文摘In this study, growth of mirror-like ultra-nanocrystalline diamond(UNCD) films by a facile hybrid CVD approach was presented. The nucleation and deposition of UNCD films were conducted in microwave plasma CVD(MPCVD) and direct current glow discharge CVD(DC GD CVD) on silicon substrates, respectively. A very high nucleation density(about 1×10^11 nuclei cm^-2) was obtained after plasma pretreatment. Furthermore, large area mirrorlike UNCD films of Φ 50 mm were synthesized by DC GD CVD. The thickness and grain size of the UNCD films are 24 μm and 7.1 nm, respectively. In addition, the deposition mechanism of the UNCD films was discussed.
