Frequency- and Power-Dependent Photoresponse of a Perovskite Photodetector Down to the Single-Photon Level

Autor: Kenji Nomura, Yimu Chen, Sheng Xu, Zihan Xu, Yu-Hwa Lo, Lujiang Yan, Alex Ce Zhang, Jiayun Zhou, Shaurya Arya, Mohammad Abu Raihan Miah, Yugang Yu, Iftikhar Ahmad Niaz, Yusheng Lei
Rok vydání: 2020
Předmět:
Zdroj: Nano letters. 20(3)
ISSN: 1530-6992
Popis: Organometallic halide perovskites attract strong interests for their high photoresponsivity and solar cell efficiency. However, there was no systematic study of their power- and frequency-dependent photoresponsivity. We identified two different power-dependent photoresponse types in methylammonium lead iodide perovskite (MAPbI3) photodetectors. In the first type, the photoresponse remains constant from 5 Hz to 800 MHz. In the second type, absorption of a single photon can generate a persistent photoconductivity of 30 pA under an applied electric field of 2.5 × 104 V/cm. Additional absorbed photons, up to 8, linearly increase the persistent photoconductivity, which saturates with the absorption of more than 10 photons. This is different than single-photon avalanche detectors (SPADs) because the single-photon response is persistent as long as the device is under bias, providing unique opportunities for novel electronic and photonic devices such as analogue memories for neuromorphic computing. We propose an avalanche-like process for iodine ions and estimate that absorption of a single 0.38 aJ photon triggers the motion of 108-9 ions, resulting in accumulations of ions and charged vacancies at the MAPbI3/electrode interfaces to cause the band bending and change of electric material properties. We have made the first observation that single-digit photon absorption can alter the macroscopic electric and optoelectronic properties of a perovskite thin film.
Databáze: OpenAIRE