Enhanced Multiwavelength Response of Flexible Synaptic Transistors for Human Sunburned Skin Simulation and Neuromorphic Computation

材料科学 神经形态工程学 突触可塑性 晶体管 计算机科学 光电子学 纳米技术 人工神经网络 人工智能 电气工程 生物化学 工程类 电压 受体 化学
作者
Xin Wang,Shuting Yang,Zongze Qin,Bin Hu,Laju Bu,Guanghao Lu
出处
期刊:Advanced Materials [Wiley]
卷期号:35 (40): e2303699-e2303699 被引量:95
标识
DOI:10.1002/adma.202303699
摘要

Abstract In biological species, optogenetics and bioimaging work together to regulate the function of neurons. Similarly, the light‐controlled artificial synaptic system not only enhances computational speed but also simulates complex synaptic functions. However, reported synaptic properties are mainly limited to mimicking simple biological functions and single‐wavelength responses. Therefore, the development of flexible synaptic devices with multiwavelength optical signal response and multifunctional simulation remains a challenge. Here, flexible organic light‐stimulated synaptic transistors (LSSTs) enabled by alumina oxide (AlO X ), with a simple fabrication process, are reported. By embedding AlO X nanoparticles, the excitons separation efficiency is improved, allowing for multiple wavelength responses. Optimized LSSTs can respond to multiple optical and electrical signals in a highly synaptic manner. Multiwavelength optical synaptic plasticity, electrical synaptic plasticity, sunburned skin simulation, learning efficiency model controlled by photoelectric cooperative stimulation, neural network computing, “deer” picture learning and memory functions are successfully proposed, which promote the development for future artificial intelligent systems. Furthermore, as prepared flexible transistors exhibit mechanical flexibility with bending radius down to 2.5 mm and improved photosynaptic plasticity, which facilitating development of neuromorphic computing and multifunction integration systems at the device‐level.
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