Fabrication of rapid response self-powered photodetector using solution-processed triple cation lead-halide perovskite

Authors

Geoffrey Ryan Adams, FAMU-FSU College of Engineering
Vincent Obiozo Eze, FAMU-FSU College of Engineering
Md Abu S. Shohag, FAMU-FSU College of Engineering
Ryan Simpson, FAMU-FSU College of Engineering
Helen Parker, FAMU-FSU College of Engineering
Okenwa I. Okoli, FAMU-FSU College of Engineering

Abstract

Self-powered photodetectors (PDs) are suitable for application in smart systems, image sensing and optical communications. Herein, a self-powered PD based on triple cation lead-halide perovskite (TCLP) is reported. We showed the effect of bromide concentration on the optical and structural properties of the TCLP films. Additionally, an environmental stability test was conducted and it was found that TCLP with 10% Br can remain stable for up to 128 days after exposure to ambient air. Using this material, a self-powered perovskite PD was fabricated and demonstrated an impressive performance with a responsivity of 0.52 AW-1, detectivity of 8.8×1012 Jones, on/off ratio of 7.3 × 105, and a rapid rise and decay time of 19 μs and 21 μs, respectively. This work offers a useful insight into the effects the fabrication method of the thin film plays in building low-cost, stable, and high-performance self-powered PDs for application in structural health monitoring, imaging, optical communication, and biomedical sensing.

Publication Title

Engineering Research Express

Recommended Citation

Adams, G., Eze, V., Shohag, M., Simpson, R., Parker, H., & Okoli, O. (2020). Fabrication of rapid response self-powered photodetector using solution-processed triple cation lead-halide perovskite. Engineering Research Express, 2 (1) https://doi.org/10.1088/2631-8695/ab7b38