Flexible ionic‐gel synapse devices and their applications in neuromorphic system DOI Creative Commons

Fengchang Huang,

Xidi Sun, Yi Fang Shi

et al.

FlexMat., Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 16, 2024

Abstract Biological neural systems, composed of neurons and synaptic networks, exhibit exceptional capabilities in signal transmission, processing, integration. Inspired by the mechanisms these researchers have been dedicated to developing artificial systems based on flexible devices that effectively mimic functions biological synapses, providing hardware support for advancement intelligence. In recent years, ionic gels, known their high conductivity intuitive mimicry, utilized development ionic‐gel synapses (IGSs). They are considered ideal materials next wearable generation neuromorphic systems. This review introduces IGS summarizes progress IGS‐based Additionally, key challenges future prospects related IGSs outlined, potential suggestions provided.

Language: Английский

Flexible ionic‐gel synapse devices and their applications in neuromorphic system DOI Creative Commons

Fengchang Huang,

Xidi Sun, Yi Fang Shi

et al.

FlexMat., Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 16, 2024

Abstract Biological neural systems, composed of neurons and synaptic networks, exhibit exceptional capabilities in signal transmission, processing, integration. Inspired by the mechanisms these researchers have been dedicated to developing artificial systems based on flexible devices that effectively mimic functions biological synapses, providing hardware support for advancement intelligence. In recent years, ionic gels, known their high conductivity intuitive mimicry, utilized development ionic‐gel synapses (IGSs). They are considered ideal materials next wearable generation neuromorphic systems. This review introduces IGS summarizes progress IGS‐based Additionally, key challenges future prospects related IGSs outlined, potential suggestions provided.

Language: Английский

Citations

0