裂纹诱导的 Ag 纳米线网络用于透明、可拉伸且高灵敏度的应变传感器。

Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors.

机构信息

Display Materials & Components Research Centre, Korea Electronics Technology Institute, Seongnam, 463-816, Korea.

School of Advanced Materials Engineering, Chonbuk National University, Deokjin-Dong 664-14, Jeonju 561-756, Korea.

出版信息

Sci Rep. 2017 Aug 11;7(1):7959. doi: 10.1038/s41598-017-08484-y.

DOI:10.1038/s41598-017-08484-y

PMID:28801657

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5554203/

Abstract

Crack-based strain sensor systems have been known for its high sensitivity, but suffer from the small fracture strain of the thin metal films employed in the sensor which results in its negligible stretchability. Herein, we fabricated a transparent (>90% at 550 nm wavelength), stretchable (up to 100%), and sensitive (gauge factor (GF) of 30 at 100% strain) strain gauge by depositing an encapsulated crack-induced Ag nanowire (AgNW) network on a hydroxylated poly(dimethylsiloxane) (PDMS) film. Stretching the encapsulated AgNWs/PDMS resulted in the formation of a percolation network of nanowire ligaments with abundant percolation paths. The encapsulating polymer was designed to adhere strongly to both the AgNW and PDMS. The improved adhesion ensured the resistance of the crack-induced network of AgNWs varied reversibly, stably, and sensitively when stretched and released, at strains of up to 100%. The developed sensor successfully detected human motions when applied to the skin.

摘要

基于裂纹的应变传感器系统以其高灵敏度而闻名，但由于传感器中所采用的薄金属薄膜的断裂应变量较小，导致其可拉伸性可以忽略不计。在此，我们通过在经羟基化的聚二甲基硅氧烷（PDMS）薄膜上沉积封装的裂纹诱导银纳米线（AgNW）网络，制造了一种透明（在 550nm 波长下大于 90%）、可拉伸（可达 100%）和灵敏（应变 100%时的应变系数（GF）为 30）的应变计。拉伸封装的 AgNW/PDMS 会导致纳米线链节的渗流网络形成，其中存在大量的渗流路径。封装聚合物被设计为与 AgNW 和 PDMS 都具有很强的附着力。这种改进的附着力确保了裂纹诱导的 AgNW 网络的电阻在拉伸和释放时能够可逆、稳定且灵敏地变化，应变可达 100%。当应用于皮肤时，所开发的传感器成功地检测到人体运动。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee87/5554203/8f1e8120c4f3/41598_2017_8484_Fig1_HTML.jpg

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裂纹诱导的 Ag 纳米线网络用于透明、可拉伸且高灵敏度的应变传感器。

Crack-induced Ag nanowire networks for transparent, stretchable, and highly sensitive strain sensors.

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