Abstract
The current–voltage (I–V) characteristics of trigonal selenium (t-Se) nanowire (NW) crystals made via immersion in ethanol have been studied. A steep increase in current at the trap-filled limit voltage is observed in the I–V curve of t-Se NWs with a space-charge-limited current. From an analysis of the I–V characteristics based on a three-dimensional model, the trap concentration and trap energy are estimated to be 6.8 × 1012 cm−3 and 0.60 eV, respectively. It is compared with trap levels of 0.59, 0.42, and 0.37 eV obtained from an analysis of the photocurrent spectrum of t-Se NWs, which can be attributed to the deformation, OH- stretching mode, and CH- stretching mode, respectively.
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