材料科学
标度系数
硅酮
石墨烯
复合材料
导电体
涂层
基质(水族馆)
多孔性
硅橡胶
薄板电阻
制作
纳米技术
病理
地质学
海洋学
替代医学
医学
图层(电子)
作者
Elham Davoodi,Hossein Montazerian,Reihaneh Haghniaz,Armin Rashidi,Samad Ahadian,Amir Sheikhi,Jun Chen,Ali Khademhosseini,Abbas S. Milani,Mina Hoorfar,Ehsan Toyserkani
出处
期刊:ACS Nano
[American Chemical Society]
日期:2020-01-06
卷期号:14 (2): 1520-1532
被引量:176
标识
DOI:10.1021/acsnano.9b06283
摘要
Three-dimensional flexible porous conductors have significantly advanced wearable sensors and stretchable devices because of their specific high surface area. Dip coating of porous polymers with graphene is a facile, low cost, and scalable approach to integrate conductive layers with the flexible polymer substrate platforms; however, the products often suffer from nanoparticle delamination and overtime decay. Here, a fabrication scheme based on accessible methods and safe materials is introduced to surface-dope porous silicone sensors with graphene nanoplatelets. The sensors are internally shaped with ordered, interconnected, and tortuous internal geometries (i.e., triply periodic minimal surfaces) using fused deposition modeling (FDM) 3D-printed sacrificial molds. The molds were dip coated to transfer-embed graphene onto the silicone rubber (SR) surface. The presented procedure exhibited a stable coating on the porous silicone samples with long-term electrical resistance durability over ∼12 months period and high resistance against harsh conditions (exposure to organic solvents). Besides, the sensors retained conductivity upon severe compressive deformations (over 75% compressive strain) with high strain-recoverability and behaved robustly in response to cyclic deformations (over 400 cycles), temperature, and humidity. The sensors exhibited a gauge factor as high as 10 within the compressive strain range of 2–10%. Given the tunable sensitivity, the engineered biocompatible and flexible devices captured movements as rigorous as walking and running to the small deformations resulted by human pulse.
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