Photoresponse in reduced graphene oxide thin films
ORAL
Abstract
We examine photo-response and positional dependent photocurrent generation in chemically reduced graphene oxide (RGO) thin film under near infrared illumination. We have observed that the photocurrent depends strongly on the position of laser spot with maximum photocurrent occurring at the metal-film interface. A slow time constant ($\sim $2.8 seconds) was observed and the photocurrent exhibits a linear dependence on the incident laser intensity. In light of our observations, the positional sensitive photocurrent generation is explained as originating from the diffusion of photo-excited carriers around the Schottky barriers at the RGO thin film electrode junctions.
*One of the authors (S.G) thanks DST, Government of India, for BOYSCAST fellowship.
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Authors
Surajit Ghosh
University of Central Florida Nanoscience Technology Center
Biddut K. Sarker
University of Central Florida Nanoscience Technology Center and Dept. of Physics
Department of Physics \& Nanoscience Technology Center, University of Central Florida, Orlando, Florida 32826, USA.
Anindarupa Chunder
University of Central Florida Nanoscience Technology Center and Dept. of Chemistry
Lei Zhai
University of Central Florida Nanoscience Technology Center and Dept. of Chemistry
Saiful I. Khondaker
University of Central Florida Nanoscience Technology Center and Dept. of Physics
Department of Physics \& Nanoscience Technology Center, University of Central Florida, Orlando, Florida 32826, USA.
Univ. of Central Florida, Nanoscience Technology Center and Dept. of Physics
University of Central Florida
University of Central Florida, Nanoscience Technology Center and Department of Physics
Univ.of Central Florida, Nanoscience Technology Center and Dept. of Physics
