- 【SCI2区通讯作者宋晓峰】Flexible sensitive hydrogel sensor with self-powered capability
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- 所属单位:化学工程学院
- 发表刊物:Colloids and Surfaces A: Physicochemical and Engineering Aspects
- 项目来源:其他课题
- 摘要:Flexible sensitive hydrogels gain comprehensive research interests in fabricating human-machine interfacial devices. However, they face a great challenge of incompatibility among high strength, ultra-toughness and good conductivity, and count on an external power supply. In the work, 4-(methacryloyloxy) ethyl-1- phenylene acid (MBA) and 1,4-(5-hexenyloxy) benzene (RM26) are synthesized as supramolecular crosslinker and inserted into polyvinyl alcohol (PVA) hydrogel. A series of conductive hydrogels (PVA-PMR-NaCls) are produced by salt immersion method. The optimal PVA-PMR-NaCl exhibits the toughness of 15.92MJ⋅m􀀀 3, the elongation at break of 600%, the tensile strength of 5.61 MPa and the Young’s modulus of 2.16 MPa. It withstands the side effect of saline ions because the defined molecules with flexible chain segment and rigid group intervene. The conductivity for PVA-PMR-NaCl is 3.0 S⋅m􀀀 1 prior to original PVA-NaCl owing to the carboxyl in network. It shows high gauge factor (GF) toward tensile strain, which achieves 6.24 above 200% strain. The PVA-PMR-NaCl sensor presents high sensitivity, stability and quick responsiveness during detecting human movement. Furthermore, the self-powered PVA-PMR-NaCl sensor by assembling with zinc foil and copper foil achieves the open circuit voltage of 0.809 V, and can likewise trace the stretching, bending and compressing movement according to current change. So, it will be a promising candidate as a self-powered multi-functional sensor.
- 合写作者:韩立彬,宋晓峰
- 第一作者:宋晓峰
- 论文类型:期刊论文
- 卷号:639
- 页面范围:1
- 是否译文:否
- 发表时间:2022-01-21
