Electret-Based Vertical Organic Synaptic Transistor With MXene for Neural Network-Based Computation

Electret-Based Vertical Organic Synaptic Transistor With MXene for Neural Network-Based Computation

Organic synaptic transistors with excellent solution processability and biocompatibility have emerged as artificial electronic synapses. Regular organic synaptic transistors suffer from slight conductance variation and asymmetric conductance tuning, limiting the development of the model perception a...

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Veröffentlicht in:IEEE transactions on electron devices 2022-12, Vol.69 (12), p.1-5
Hauptverfasser: Zou, Yi, Li, Enlong, Yu, Rengjian, Gao, Changsong, Yu, Xipeng, Zeng, Bangyan, Yang, Qian, Guo, Tailiang, Chen, Huipeng
Format: Artikel
Sprache:eng
Schlagworte:
Behavioral sciences
Biocompatibility
Biological neural networks
Carrier transport
Computer networks
Depression
Logic gates
Model accuracy
MXenes
Nanoscale channel length
Neural networks
Neuromorphic computing
Neuromorphic engineering
Object recognition
organic synaptic transistors
Pattern recognition
Perception
recognition accuracy
Semiconductor devices
Synapses
Transistors
Tuning
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Zusammenfassung:Organic synaptic transistors with excellent solution processability and biocompatibility have emerged as artificial electronic synapses. Regular organic synaptic transistors suffer from slight conductance variation and asymmetric conductance tuning, limiting the development of the model perception accuracy of the organic neuromorphic systems. Here, we first develop an electret-based vertical organic synaptic transistor (EVOST) with Mxene as the source electrode. The EVOST achieves linear conductance tuning by leveraging the nanoscale carrier transport channel length and high conductivity of MXene. Moreover, we develop an artificial neural recognition system composed of EVOSTs for recognizing the random images from the database, which achieves outstanding perception accuracy of 94.9%. The EVOST provides an alternative way for neuromorphic computing networks.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2022.3211478