材料科学
光电流
钙钛矿(结构)
晶界
立体视
微观结构
光电子学
全色胶片
纳米技术
自旋(空气动力学)
选择性
图像传感器
手性(物理)
作者
De Yu,Xi Zhang,Tao Wang,Yuheng Li,Ruiqin He,Zeyang Xu,Jixin Tang,Yixuan Zhang,Xi Zhang,Huang Huang,Tongpeng Zhao,Haoliang Liu,Ao Liu,Kai Shen,Sai Bai,Huihui Zhu,Y. S. Chen,Qinghai Song
标识
DOI:10.1038/s41467-026-71190-9
摘要
As a type of promising hardware for next-generation artificial visual systems with extended perceptual and anti-interference capabilities, circular-polarization-resolved retinomorphic sensors are underexplored due to the lack of suitable chiral materials that enable highly dissymmetric circular-polarization responses and multiple biomimetic functions. Here, we demonstrate a self-assembly heterogeneous microstructure consisting of chiral-deficient grains and chiral-rich grain boundaries in chiral perovskites that simultaneously facilitate spin selectivity and optoelectronic properties for highly dissymmetric and multifunctional circular-polarization-resolved retinomorphic sensors. Our sensors not only exhibit a photocurrent dissymmetry factor as high as 1.98 and a panchromatic circular-polarization-resolved response, but also possess multiple biomimetic functions that simulate human retinas, including synaptic behaviors, light adaptation, and color recognition. As a proof-of-concept, we respectively demonstrate their applications using a sensor array that resolves a single circular-polarization handedness for information encryption, as well as binocular sensor arrays that resolve the opposite circular-polarization handedness for virtual stereoscopic reconstruction.
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