Self‐Powered and Spectrally Distinctive Nanoporous Ga2O3/GaN Epitaxial Heterojunction UV Photodetectors

• Published in: Advanced photonics research Vol. 2; no. 8
• Main Authors: Chen, Tiwei, Zhang, Xiaodong, Ma, Yongjian, He, Tao, Wei, Xing, Tang, Wenbo, Tang, Wenxin, Zhou, Xin, Fu, Houqiang, Zhang, Li, Xu, Kun, Zeng, Chunhong, Fan, Yaming, Cai, Yong, Zhang, Baoshun
• Format: Journal Article
• Language: English
• Published: Hoboken John Wiley & Sons, Inc 01.08.2021; Wiley-VCH
• Subjects: current polarity reversal; Energy consumption; Light; nanoporous Ga2O3; Performance evaluation; self-powered UV photodetectors; self-reactive etching; spectrally distinctive
• ISSN: 2699-9293; 2699-9293
• DOI: 10.1002/adpr.202100049

Herein, self‐powered spectrally distinctive UV photodetectors (PDs) based on nanoporous epitaxial Ga2O3/GaN heterojunctions grown by metalorganic chemical vapor deposition (MOCVD) are reported. The nanoporous structures are formed by a novel self‐reactive etching (SRE) method, which significantly enhances the device performance. PDs with different porosities are fabricated and compared. In the self‐powered mode, the PD with the highest nanopore porosity exhibits the best performance, with an ultralow dark current of 0.04 nA, a fast photoresponse speed, and a high responsivity of 43.9 mA W−1 (35.8 mA W−1) under 254 nm (365 nm) illumination, which is 800% higher than that of the reference device without the porous structure. Furthermore, opposite current polarities are observed in the PDs under different illumination spectra, the mechanism of which is explained by the carrier transportation using the device band diagrams. This phenomenon can be used to distinguish different incident spectra, opening the door to more new applications. This work represents one of the first spectrally distinctive self‐powered UV PDs based on nanoporous Ga2O3/GaN heterojunctions and significantly benefits the development of multifunctional UV PDs. Self‐powered photodetectors (PDs) are fabricated by nanoporous Ga2O3/GaN heterojunctions via self‐reactive etching. In the self‐powered mode, the photoresponse of the PDs with the highest porosities is significantly enhanced. In addition, the nanoporous Ga2O3/GaN PDs show different current polarities under different illumination wavelengths, which is used to distinguish the incident light spectrum.