Highly conductive n-type hydrogenated nanocrystalline cubic silicon carbide (nc-3C-SiC:H) films have been deposited by hotwire chemical vapor deposition at low temperatures below 300 C. We found that hexamethyldisilazane is an effective dopant for n-type doping into nc-3C-SiC:H films. Dark conductivity and its activation energy for the n-type nc-3C-SiC:H film were found to be 5.32 S/cm and 25 meV. We also fabricated nc-3C-SiC:H/crystalline silicon heterojunction diodes and solar cells. These devices showed good rectifying characteristics, and conversion efficiency of 13.4% was achieved.
The n-type microcrystalline cubic silicon carbide (mc-3C-SiC:H) films were deposited by hot wire chemical vapor deposition (HWCVD) at a low substrate temperature ($300 C). Heterojunction silicon based photovoltaic devices were fabricated by depositing wide band gap n-type mc-3C-SiC thin films on p-type Si wafers, whose thickness and resistivity were 200 mm and 1-10 cm, respectively. The silicon wafers were textured using alkaline etchant prior to the device fabrication. The photovoltaic parameters of a typical device were found to be V oc ¼ 560 mV, J sc ¼ 35:0 mA/cm 2 , fill factor (F.F.) = 0.724, and ¼ 14:20%. Numerical analysis was performed using automat for simulation of hetero structures (AFORS-HET), a onedimensional device simulators to determine the probable cause of the changes in device parameters before and after the ageing of the filament.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.