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Solid-State Ion-Conductive Elastomers with Robustness and Conductivity for Pressure Sensors and Triboelectric Nanogenerators

Xiwei Xu, Ziqian Wang, Changsheng Wang, Jiamin Liu, Fuqi Wang, Zequan Li, Wei Gao, Shuangliang Zhao

发表年份
2025
引用次数
1

摘要

Solid-state ion-conductive elastomers (ICEs) serve as core materials for flexible electronic devices, demonstrating significant application potential in flexible pressure sensing, wearable electronics, and soft robotics. However, achieving a synergistic enhancement of mechanical properties and ionic conductivity in solid-state ion-conductive elastomers remains a substantial challenge. In this study, a multiple cross-linking strategy was employed. By incorporating lithium bis(trifluoromethanesulfonyl)imide (LiTFSI) into a polyurethane matrix, a polyurethane-based solid-state ion-conductive elastomer (designated MCPU-100Li) exhibiting concurrent high mechanical strength and high ionic conductivity was designed and synthesized. Benefiting from the multiple cross-linked network within the polymer, MCPU-100Li demonstrates high tensile strength (6.56 MPa), high ionic conductivity (5.84 × 10–4 S cm–1), high tear resistance with a fracture energy of 17.4 kJ m–2 and good environmental stability. The flexible pressure sensor based on MCPU-100Li exhibits high sensitivity, rapid response, and robust stability, enabling precise detection of electrical signal variations under different pressures. Furthermore, integrated with a chessboard-like array, this sensor achieves high-resolution spatial mapping of position and pressure through multichannel signal analysis, demonstrating capabilities for diverse board layouts and dynamic recognition. Additionally, MCPU-100Li functions effectively as a key triboelectric layer material in triboelectric nanogenerators (TENGs), highlighting its promising potential for applications in wearable electronics and energy harvesting.

关键词

Triboelectric effectElastomerPressure sensorFlexible electronicsConductivityRobustness (evolution)ElectronicsEnergy harvestingUltimate tensile strengthElectronic skin

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