Substrate Temperature Dependence of the Optical and Electronic Properties of Glow Discharge Produced a-Ge:H

Abstract

Glow discharge a-Ge:H films produced at substrate temperatures (T_δ) between 50°C and 350°C, with and without a top a-Si:H capping layer, have been studied. The uncapped samples produced at T_δ < 250°C suffer severe post-deposition atmospheric contamination, resulting in orders of magnitude of unstable increase in both the photoresponse and dark conductivity. The capped samples, which have very much reduced immediate post-deposition contamination, show only small increases in the efficiency-mobility-lifetime product (ŋμτ) with increasing T_δ. This contrasts with the results of earlier similar studies on uncapped samples, which showed a peak in either the photoconductivity¹ or the ratio of photoconductivity to dark conductivity² for 150°C < T_δ < 2000C. We have also observed a decrease in the bandgap, a narrowing of the band-tails, an increase in the index of refraction, and a reduction of hydrogen content of the films with increasing T_δ.