基于氧化物基神经形态晶体管的柔性传感平台。

Flexible Sensory Platform Based on Oxide-based Neuromorphic Transistors.

作者信息

Liu Ning, Zhu Li Qiang, Feng Ping, Wan Chang Jin, Liu Yang Hui, Shi Yi, Wan Qing

机构信息

School of Electronic Science &Engineering, Nanjing University, Nanjing 210093, People's Republic of China.

Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo 315201, People's Republic of China.

出版信息

Sci Rep. 2015 Dec 11;5:18082. doi: 10.1038/srep18082.

DOI:10.1038/srep18082

PMID:26656113

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4676022/

Abstract

Inspired by the dendritic integration and spiking operation of a biological neuron, flexible oxide-based neuromorphic transistors with multiple input gates are fabricated on flexible plastic substrates for pH sensor applications. When such device is operated in a quasi-static dual-gate synergic sensing mode, it shows a high pH sensitivity of ~105 mV/pH. Our results also demonstrate that single-spike dynamic mode can remarkably improve pH sensitivity and reduce response/recover time and power consumption. Moreover, we find that an appropriate negative bias applied on the sensing gate electrode can further enhance the pH sensitivity and reduce the power consumption. Our flexible neuromorphic transistors provide a new-concept sensory platform for biochemical detection with high sensitivity, rapid response and ultralow power consumption.

摘要

受生物神经元的树突整合和脉冲发放操作启发，在柔性塑料基板上制备了具有多个输入门的柔性氧化物基神经形态晶体管，用于pH传感器应用。当这种器件在准静态双栅协同传感模式下工作时，它表现出约105 mV/pH的高pH灵敏度。我们的结果还表明，单脉冲动态模式可以显著提高pH灵敏度，并减少响应/恢复时间和功耗。此外，我们发现施加在传感栅电极上的适当负偏压可以进一步提高pH灵敏度并降低功耗。我们的柔性神经形态晶体管为高灵敏度、快速响应和超低功耗的生化检测提供了一个新概念的传感平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/855b/4676022/f02aac1c4184/srep18082-f1.jpg

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基于氧化物基神经形态晶体管的柔性传感平台。

Flexible Sensory Platform Based on Oxide-based Neuromorphic Transistors.

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