What question did this study set out to answer?

The aim is to review the progress in molecular materials and devices for artificial neural systems.

April 23, 2026

面向人工神经的分子材料与器件研究进展

Key Points

The aim is to review the progress in molecular materials and devices for artificial neural systems.
Literature review on organic semiconductors and their integration into artificial neurons.
Discussion of the coupling between ionic and optical fields in molecular materials.
Analysis of current challenges and potential future directions in the field.
Identified organic semiconductors as promising candidates for artificial neural devices.
Highlighted the ability of these materials to mimic neuronal ionic dynamics.
Outlined several challenges that need to be addressed for enhanced performance.

Abstract

生物神经系统集信息感知、转导与存算于一体, 相较于传统微电子技术具备低功耗、高能效的特性. 模拟神经生理机制以构建人工神经器件, 可实现电子器件与生物体深度融合，拓展类脑应用. 有机半导体依赖分子间弱相互作用聚集, 其载流子产生与输运过程能够与离子和光等外场耦合, 进而可重构神经元内部离子动力学过程与生物机制, 使得分子材料成为构建人工神经器件的理想载体之一. 本文综述了面向人工神经的分子材料与器件研究进展, 并介绍了其功能应用的研究进展, 明晰了当前挑战, 最后为未来高性能人工神经的构建指明潜在方向.

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Authors

Zhangrui Shi

Lingxuan Jia

Liyao Liu

Journals

Scientia Sinica Chimica

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面向人工神经的分子材料与器件研究进展

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Abstract

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