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Extremely Soft, Stretchable, and Self-Adhesive Silicone Conductive Elastomer Composites Enabled by a Molecular Lubricating Effect

Jin Huang, Lei Cao, Chengyuan Xue, Yu-Zhe Zhou, Yuchun Cai, Haoyu Zhao, Ye-Han Xing, Shu‐Hong Yu

2022Nano Letters20 citationsDOI

Abstract

Softness, adhesion, stretchability, and fast recovery from large deformations are essential properties for conductive elastomers that play an important role in the development of high-performance soft electronics. However, it remains an ongoing challenge to obtain conductive elastomers that combine these properties. We have fabricated a super soft (Young's modulus 2.3-12 kPa), highly stretchable (up to 1500% strain), and underwater adhesive silicone conductive elastomer composite (SF-C-PDMS) by incorporating dimethyl silicone oil as a lubricating agent in a cross-linked molecular network. The resultant SF-C-PDMS not only exhibits superior softness but also can readily recover after a strain of 1000%. The initial resistance only decreases by 8% after 100000 cycles of tensile fatigue test (100% strain, 0.5 Hz, 15 mm/s). This multifunctional silicone conductive elastomer composite is obtained in a one-step preparation at room temperature using commercially available materials. Moreover, we illustrate the capabilities of this composite in motion sensing.

Topics & Concepts

SiliconeComposite materialElastomerMaterials scienceAdhesiveElectrical conductorSelf adhesiveStretchable electronicsSilicone ElastomersElectronicsChemistryLayer (electronics)Physical chemistryAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsDielectric materials and actuators