Details

Autor(en) / Beteiligte

• Zhang, Qingyi
• Li, Ning
• Zhang, Tao
• Dong, Dianmeng
• Yang, Yongtao
• Wang, Yuehui
• Dong, Zhengang
• Shen, Jiaying
• Zhou, Tianhong
• Liang, Yuanlin
• Tang, Weihua
• Wu, Zhenping
• Zhang, Yang
• Hao, Jianhua

Titel

Enhanced gain and detectivity of unipolar barrier solar blind avalanche photodetector via lattice and band engineering

Ist Teil von

• Nature communications, 2023-01, Vol.14 (1), p.418-418, Article 418

Ort / Verlag

England: Nature Publishing Group

Erscheinungsjahr

2023

Quelle

Electronic Journals Library

Beschreibungen/Notizen

• Ga O -based solar blind avalanche photodetectors exhibit low voltage operation, optical filter-free and monolithic integration of photodetector arrays, and therefore they are promising to be an alternative to the bulky and fragile photomultiplier tubes for weak signal detection in deep-ultraviolet region. Here, by deliberate lattice and band engineering, we construct an n-Barrier-n unipolar barrier avalanche photodetector consisting of β-Ga O /MgO/Nb:SrTiO heterostructure, in which the enlarged conduction band offsets fortify the reverse breakdown and suppress the dark current while the negligible valance band offsets faciliate minority carrier flow across the heterojunction. The developed devices exhibit record-high avalanche gain up to 5.9 × 10 and detectivity of 2.33 × 10 Jones among the reported wafer-scale grown Ga O -based photodetectors, which are even comparable to the commercial photomultiplier tubes. These findings provide insights into precise manipulation of band alignment in avalanche photodetectors, and also offer exciting opportunities for further developing high-performance Ga O -based electronics and optoelectronics.