Mushroom-mimetic 3D hierarchical architecture-based e-skin with high sensitivity and a wide sensing range for intelligent perception†

IF 12.2 2区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Yajie Zhang, Xinyu Zhang, Chuan Ning, Kun Dai, Guoqiang Zheng, Chuntai Liu and Changyu Shen
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Abstract

Electronic skin (e-skin) is one of the most important components of future wearable electronic devices, whose sensing performances can be improved by constructing micropatterns on its sensitive layer. However, in traditional e-skins it is difficult to balance sensitivity and the pressure sensing range, and most micropatterns are generally prepared by some complex technologies. Herein, mushroom-mimetic micropatterns with 3D hierarchical architecture and an interdigital electrode are facilely prepared. The micropatterned sensitive layer is further developed through spraying carbon nanotube (CNT) dispersion on the thermoplastic polyurethane (TPU) film with mushroom-mimetic micropatterns (denoted as MMTC). Thanks to the “interlocking effect” between mushroom-mimetic micropatterns and the interdigital electrode in the as-prepared MMTC/interdigital electrode e-skin, the e-skin exhibits a high sensitivity (up to 600 kPa−1), a wide pressure sensing range (up to 150 kPa), a short response time (<20 ms) and excellent durability (15 000 cycles). The MMTC/interdigital electrode e-skin is capable of precisely monitoring health conditions via the as-acquired physiological parameters in real time. Moreover, such e-skins can be used to monitor gestures wirelessly, sense the trajectory of pressure stimuli and recognize Morse code under water. This study provides a cost-efficient, facile strategy to design e-skin for future-oriented wearable intelligent systems.

Abstract Image

基于蘑菇状3D分层结构的电子皮肤具有高灵敏度和广泛的智能感知感知感知范围。
电子皮肤(e-skin)是未来可穿戴电子设备的重要组成部分之一,其传感性能可以通过在其敏感层上构建微图案来提高。然而,在传统的电子皮肤中,很难平衡灵敏度和压力传感范围,并且大多数微图案通常是通过一些复杂的技术制备的。在此,可以容易地制备具有3D分级结构的蘑菇模拟微图案和叉指电极。通过在热塑性聚氨酯(TPU)膜上喷涂具有蘑菇状模拟微图案(表示为MMTC)的碳纳米管(CNT)分散体来进一步形成微图案敏感层。由于所制备的MMTC/叉指电极电子皮肤中蘑菇状模拟微图案和叉指电极之间的“互锁效应”,电子皮肤表现出高灵敏度(高达600kPa-1)、宽的压力传感范围(高达150kPa)、,响应时间短(通过实时获取的生理参数)。此外,这种电子皮肤可以用于无线监测手势、感知压力刺激的轨迹和识别水下的莫尔斯电码。这项研究为面向未来的可穿戴智能系统设计电子皮肤提供了一种经济高效、简单的策略。
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来源期刊
Materials Horizons
Materials Horizons CHEMISTRY, MULTIDISCIPLINARY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
18.90
自引率
2.30%
发文量
306
审稿时长
1.3 months
期刊介绍: Materials Horizons is a leading journal in materials science that focuses on publishing exceptionally high-quality and innovative research. The journal prioritizes original research that introduces new concepts or ways of thinking, rather than solely reporting technological advancements. However, groundbreaking articles featuring record-breaking material performance may also be published. To be considered for publication, the work must be of significant interest to our community-spanning readership. Starting from 2021, all articles published in Materials Horizons will be indexed in MEDLINE©. The journal publishes various types of articles, including Communications, Reviews, Opinion pieces, Focus articles, and Comments. It serves as a core journal for researchers from academia, government, and industry across all areas of materials research. Materials Horizons is a Transformative Journal and compliant with Plan S. It has an impact factor of 13.3 and is indexed in MEDLINE.
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