Issue 37, 2021

Sensing of ultraviolet light: a transition from conventional to self-powered photodetector

Abstract

Clouds in the sky pass almost 80% of ultraviolet (UV) radiation to the earth's surface, which has a significant impact on humankind. Conventional UV photodetectors (PDs) require an external battery, which not only increases the device size but also has a limited life span and maintenance costs can be prohibitively expensive. An alternative and more technically-sound solution would be the use of self-powered UV PDs that can operate independently, eliminating the need for an external source. Although many exciting studies have been done and state-of-the-art research is underway to successfully fabricate self-powered UV PDs, periodic reviews on this topic are deemed essential so that the technology's readiness can be properly evaluated and critical challenges can be addressed in a timely manner. In this article, the key issues and most exciting developments made in recent years on built-in electric field assisted self-powered UV PDs based on p–n homojunctions, p–n heterojunctions, and Schottky junctions followed by energy harvester integrated UV PDs are extensively reviewed. Finally, a summary and comparison of different types of self-powered UV PDs as well as future challenges that need to be addressed are discussed. This review sets a foundation providing essential insights into the present status of self-powered UV PDs with which researchers can engage and deal with the major challenges.

Graphical abstract: Sensing of ultraviolet light: a transition from conventional to self-powered photodetector

Article information

Article type
Review Article
Submitted
13 Jul 2021
Accepted
17 Aug 2021
First published
19 Aug 2021

Nanoscale, 2021,13, 15526-15551

Sensing of ultraviolet light: a transition from conventional to self-powered photodetector

M. F. Al Fattah, A. A. Khan, H. Anabestani, M. M. Rana, S. Rassel, J. Therrien and D. Ban, Nanoscale, 2021, 13, 15526 DOI: 10.1039/D1NR04561J

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