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. 2021 Nov;33(44):e2104690.
doi: 10.1002/adma.202104690. Epub 2021 Sep 12.

A Bioinspired Stretchable Sensory-Neuromorphic System

Sun Hong Kim  1 Geun Woo Baek  1 Jiyong Yoon  2 Seunghwan Seo  2 Jinhong Park  3 Donghyo Hahm  4 Jun Hyuk Chang  4 Duhwan Seong  2 Hyunseon Seo  5 Seyong Oh  2 Kyunghwan Kim  1 Heeyoung Jung  1 Youngsu Oh  6 Hyoung Won Baac  2 Batyrbek Alimkhanuly  7 Wan Ki Bae  4 Seunghyun Lee  7 Minbaek Lee  3   8 Jeonghun Kwak  1 Jin-Hong Park  2   4 Donghee Son  2   9   10
Affiliations

A Bioinspired Stretchable Sensory-Neuromorphic System

Sun Hong Kim et al. Adv Mater. 2021 Nov.

Abstract

Conventional stretchable electronics that adopt a wavy design, a neutral mechanical plane, and conformal contact between abiotic and biotic interfaces have exhibited diverse skin-interfaced applications. Despite such remarkable progress, the evolution of intelligent skin prosthetics is challenged by the absence of the monolithic integration of neuromorphic constituents into individual sensing and actuating components. Herein, a bioinspired stretchable sensory-neuromorphic system, comprising an artificial mechanoreceptor, artificial synapse, and epidermal photonic actuator is demonstrated; these three biomimetic functionalities correspond to a stretchable capacitive pressure sensor, a resistive random-access memory, and a quantum dot light-emitting diode, respectively. This system features a rigid-island structure interconnected with a sinter-free printable conductor, which is optimized by controlling the evaporation rate of solvent (≈160% stretchability and ≈18 550 S cm-1 conductivity). Devised design improves both areal density and structural reliability while avoiding the thermal degradation of heat-sensitive stretchable electronic components. Moreover, even in the skin deformation range, the system accurately recognizes various patterned stimuli via an artificial neural network with training/inferencing functions. Therefore, the new bioinspired system is expected to be an important step toward implementing intelligent wearable electronics.

Keywords: capacitive sensor; golden tortoise beetle; neuromorphic device; quantum dot light-emitting diode; resistive random-access memory; sinter-free printable conductor.

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