Applied Science and Convergence Technology
Published online December 27, 2024
Copyright © The Korean Vacuum Society.
Jaehyeok Shin 1 , Siyun Noh 1 , Seunghwan Jhee 1 , Sumin Kang 1 , Yumin Lee 1 , Jin Soo Kim 1*
Jeonbuk National University
Correspondence to:kjinsoo@jbnu.ac.kr
We report the dynamic characteristics of flexible photosensors fabricated with InN nanowires and graphene. To investigate the influence of varying graphene layer numbers on the response characteristics, the top graphene layer was set as a single layer, and the bottom graphene layers were varied from single to quadruple layers to fabricate flexible photosensors. The response and recovery times of the flexible photosensor with a triple-layer bottom graphene were measured to be 20.6 and 24.2 ms, respectively, at an optical pulse illumination frequency of 5 Hz. The cross-point percentage was calculated to be 48.9%, indicating a low possibility of distortion in the pulse signal. The response and recovery times calculated from an equivalent circuit model composed of capacitances and resistances are in good agreement with the measured values. The flexible photosensors with fast response characteristics demonstrated in this study could be contributed to the implementation of the light-fidelity system.
Keywords: InN nanowire, Graphene, Flexible photosensor, Dynamic property