Flexible and Transparent Artificial Synapse Devices Based on Thin-Film Transistors with Nanometer Thickness | Zendy

Chaoqi Dai | Zendy; Chunlei Huo | Zendy; Shaocheng Qi | Zendy; Mingzhi Dai | Zendy; Thomas J Webster | Zendy; Han Xiao | Zendy

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<p>Flexible and Transparent Artificial Synapse Devices Based on Thin-Film Transistors with Nanometer Thickness</p>

Author(s) -

Chaoqi Dai,

Chunlei Huo,

Shaocheng Qi,

Mingzhi Dai,

Thomas J Webster,

Han Xiao

Publication year - 2020

Publication title -

international journal of nanomedicine

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.245

H-Index - 128

eISSN - 1178-2013

pISSN - 1176-9114

DOI - 10.2147/ijn.s267536

Subject(s) - materials science , neuromorphic engineering , thin film transistor , optoelectronics , transistor , flexible electronics , thin film , synapse , nanotechnology , layer (electronics) , computer science , electrical engineering , voltage , artificial neural network , artificial intelligence , neuroscience , engineering , biology

Artificial synaptic behaviors are necessary to investigate and implement since they are considered to be a new computing mechanism for the analysis of complex brain information. However, flexible and transparent artificial synapse devices based on thin-film transistors (TFTs) still need further research.

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