Investigation of Diamond Nucleation under Very Low Pressure in Chemical Vapor Deposition

Abstract

Diamond nucleation under very low pressure (0.1-1.0 torr) was obtained at very high nucleation densities and very rapid rates using hot-filament chemical vapor deposition (HFCVD). The density on mirror-polished silicon was as high as 1010 - 1011 cm-2, equivalent to the highest density in a microwave-plasma CVD system. That on scratched silicon substrates was up to 109 cm-2, 1-2 orders of magnitude higher than that obtained under conventionally low pressure (tens of torr, 107 - 108 cm-2). Also, the density on scratched titanium substrates was as high as 1010 cm-2. The samples were characterized using scanning electron microscopy (SEM) and Raman spectroscopy. The mechanism is investigated in detail, revealing that, under very low pressure, very long mean free path of the gas species, strong electron emission from the hot filament, and high efficiency of decomposition of hydrocarbon species by the filament greatly increase the concentration of reactive hydrocarbon radicals and atomic hydrogen on the substrate surface, and therefore, dramatically enhance the nucleation eventually. This work has great practical applications and theoretical significance.

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