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Nanocrystalline diamond films were deposited on polished Si wafer surface with electron assisted hot filament chemical vapor deposition at 1 kPa gas pressure, the deposited films were characterized and observed by Raman spectrum, X-ray diffraction, atomic force microscopy and semiconductor characterization system. The results show that when 8 A bias current is applied for 5 h, the surface roughness decreases to 28.5 nm. After 6 and 8 A bias current are applied for 1 h, and the nanocrystalline films deposition continue for 4 h with 0 A bias current at 1 kPa gas pressure. The nanocrystalline diamond films with 0.5×109 and 1×1010 Ω·cm resistivity respectively are obtained. It is demonstrated that electron bombardment plays an important role of nucleation to deposit diamond films with smooth surface and high resistivity.

参考文献

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[3] DONG Li-fang,Ma Bo-Qin,Wang Zhi-Jun.Electron behaviour in CH4/H2 gas mixture in electron-assisted chemical vapour deposition[J].中国物理(英文版),2004(10):1597-1600.
[4] Goeden C;Dollinger G .Electron-stimulated hydrogen desorption from diamond surfaces and its influence on the low-pressure synthesis of diamond[J].Applied Physics Letters,2002,81:5027.
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