Litcius/Paper detail

Bionic Scotopic Adaptation Transistors for Nighttime Low Illumination Imaging

Xiangkai Luo, Wei Deng, Fangming Sheng, Xiaobin Ren, Zishen Zhao, Chun Zhao, Yang Liu, Jialin Shi, Zeke Liu, Xiujuan Zhang, Jiansheng Jie

2024ACS Nano12 citationsDOI

Abstract

Human vision excels in perceiving nighttime low illumination due to biological feedforward adaptation. Replicating this ability in biomimetic vision using solid-state devices has been highly sought after. However, emulating scotopic adaptation, entailing a confluence of efficient photoexcitation and dynamic carrier modulation, presents formidable challenges. Here, we demonstrate a low-power and bionic scotopic adaptation transistor by coupling a light-absorption layer and an electron-trapping layer at the bottom of the semiconducting channel, enabling simultaneous achievement of efficient generation of free photocarriers and adaptive carrier accumulation within a single device. This innovation empowers our transistor to exhibit sensitivity-potentiated characteristics after adaptation, detecting scotopic-level illumination (0.001 lx) with exceptional photosensitivity up to 10 3 at low voltages below 2 V. Moreover, we have successfully replicated diverse scotopic vision functions, encompassing time-dependent visual threshold enhancement, light intensity-dependent adaptation index, imaging contrast enhancement for nighttime low illumination imaging, opening an opportunity for artificial night vision.

Topics & Concepts

Scotopic visionAdaptation (eye)OptoelectronicsMaterials scienceNight visionPhotopic visionModulation (music)TransistorPhotoexcitationOpticsVoltagePhysicsRetinaExcitationAcousticsQuantum mechanicsCCD and CMOS Imaging SensorsAdvanced Memory and Neural ComputingPhotoreceptor and optogenetics research