Soft Electronic Switches and Adaptive Logic Gates Based on Nanostructured Gold Networks DOI Creative Commons
Giacomo Nadalini, Alexander Dallinger,

Davide Sottocorno

et al.

Advanced Electronic Materials, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 13, 2024

Abstract The advent of neuromorphic substrates is promoting the development in materia autonomous and adaptive devices, employed as hardware solutions to reduce current inefficiencies traditional data processing techniques, terms energy requirements. integration capabilities on soft materials here focused edge computing paradigm interest for robotics wearable devices. For such purposes, gold nanostructured complex networks produced gas phase are fabricate latter a Polydimethylsiloxane (PDMS) substrate equipped with stretchable laser‐induced graphene electrodes, exploited production devices bridge gap between interaction environment. description control non‐linear, resistive switching electrical properties demonstrated by mechano‐responsive electronic switches reconfigurable logic gates. These preserve Boolean functions classifications even under small mechanical perturbations, thanks redundant connectivity networks. results constitute promising starting point fruitful combination physical intelligence directly integrated systems efficiently interact surrounding scenario.

Language: Английский

Soft Electronic Switches and Adaptive Logic Gates Based on Nanostructured Gold Networks DOI Creative Commons
Giacomo Nadalini, Alexander Dallinger,

Davide Sottocorno

et al.

Advanced Electronic Materials, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 13, 2024

Abstract The advent of neuromorphic substrates is promoting the development in materia autonomous and adaptive devices, employed as hardware solutions to reduce current inefficiencies traditional data processing techniques, terms energy requirements. integration capabilities on soft materials here focused edge computing paradigm interest for robotics wearable devices. For such purposes, gold nanostructured complex networks produced gas phase are fabricate latter a Polydimethylsiloxane (PDMS) substrate equipped with stretchable laser‐induced graphene electrodes, exploited production devices bridge gap between interaction environment. description control non‐linear, resistive switching electrical properties demonstrated by mechano‐responsive electronic switches reconfigurable logic gates. These preserve Boolean functions classifications even under small mechanical perturbations, thanks redundant connectivity networks. results constitute promising starting point fruitful combination physical intelligence directly integrated systems efficiently interact surrounding scenario.

Language: Английский

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