High rate hot-wire chemical vapor deposition of silicon thin films using a stable TaC covered graphite filament

We grow silicon films by hot-wire/catalytic chemical vapor deposition using a new filament material: TaC-coated graphite rods. The filaments are 1.6 mm diameter rigid graphite rods with similar to 30 mu m thick TaC coatings. Whereas heated W or Ta wire filaments are reactive and embrittle in silane (SiH(4)), the TaC/graphite filament is stable. After >2 h of exposure to SiH(4) gas at a range of filament temperatures, the full length of a TaC/graphite filament retains its shiny golden color with no indication of swelling or degradation. In comparison, a W wire exposed to Sift, under the same conditions becomes swollen and discolored at the cold ends, indicating suicide formation. Scanning electron microscopy images of the filament material are nearly identical before and after SiH4 exposure at 1500-2000 degrees C. This temperature-independent chemical stability could enable added control of the gas phase chemistry during deposition that does not compromise the filament lifetime. The larger surface area of the 1.6 mm diameter TaC coated graphite filament (compared to the 0.5 mm W filament) allows for a similar to 2x increase in the deposition rate of Si thin films grown for photovoltaic applications. (C) 2011 Elsevier B.V. All rights reserved.