Luo Xiangkai, Deng Wei, Sheng Fangming, Ren Xiaobin, Zhao Zishen, Zhao Chun, Liu Yang, Shi Jialin, Liu Zeke, Zhang Xiujuan, Jie Jiansheng
Institute of Functional Nano & Soft Materials (FUNSOM), Jiangsu Key Laboratory for Carbon-Based Functional Materials & Devices, Soochow University, Suzhou, Jiangsu 215123, China.
School of Advanced Technology, Xi'an Jiaotong-Liverpool University, Suzhou, Jiangsu 215123, China.
ACS Nano. 2024 May 28;18(21):13726-13737. doi: 10.1021/acsnano.4c01663. Epub 2024 May 14.
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 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.
由于生物前馈适应,人类视觉在感知夜间低光照方面表现出色。利用固态器件在仿生视觉中复制这种能力一直是人们梦寐以求的。然而,模拟暗视觉适应,需要高效光激发和动态载流子调制的融合,带来了巨大挑战。在此,我们通过在半导体沟道底部耦合光吸收层和电子俘获层,展示了一种低功耗仿生暗视觉适应晶体管,能够在单个器件中同时实现自由光生载流子的高效产生和自适应载流子积累。这一创新使我们的晶体管在适应后表现出灵敏度增强的特性,在低于2V的低电压下,以高达10的卓越光敏度检测暗视觉水平的光照(0.001 lx)。此外,我们成功复制了多种暗视觉功能,包括随时间变化的视觉阈值增强、光强度依赖的适应指数、夜间低光照成像的成像对比度增强,为人工夜视开辟了机会。
