Published: Sep 26, 2024 by Jiayi
Jiayi Li, Yuxi Guo, Xin Ju, Diing Shenp Ang
Abstract
Vision systems in vertebrates have evolved energy-efficient and adaptable features in hyperpolarizing photoreceptors that machine vision struggles to mimic. Because semiconducting materials always exhibit a photoconductive effect, attempts to mimic hyperpolarizing photoreceptors have proven to be non-trivial. Sophisticated 2D material based van der Waals heterostructures and other novel structures/materials pose fabrication and integration challenges. This work aims to address the issue by successfully harnessing the defect dynamics in a ubiquitous transition metal oxide (TMO) hafnia to present, for the first time, a photosensor with characteristics closely resembling those of hyperpolarizing photoreceptors, including on-the-fly adaptation to constant and changing illumination, all in just a single ultrathin (5 nm) layer. This work opens a new prospect for accelerating the development of biomimetic vision systems, given the integral role TMOs have already played in mainstream semiconductor technology.
![[Res]ACS Appl. Electron. Mater.: Ag/Ti/GeS/Ag Bidirectional Conductive-Bridge Selector with Low Turn-Off Latency, High Endurance, and Enhanced Switching Uniformity](https://pubs.acs.org/cms/10.1021/aaembp.ahead-of-print/asset/17b35d38-f717-35d3-9f71-b35d389f717b/largecover.jpg)