自愈水凝胶
肿胀 的
淀粉
材料科学
极限抗拉强度
化学工程
电化学
热稳定性
循环伏安法
复合材料
铸造
拉伸试验
脱水
高分子化学
抗压强度
电化学电位
化学
作者
Yuxin Liu,Jianglong Wang,Zesheng Liang,Qinghua Pan
标识
DOI:10.1021/acsaelm.5c02137
摘要
The physical and chemical dual-cross-linked cassava starch hydrogels were prepared by combining metal–organic framework material (ZIF-8) with sodium trimetaphosphate, and the mechanical properties, water retention capacity, thermal properties, swelling behavior, and electrochemical properties were investigated. Starch hydrogels with the double-cross-linked structure exhibit high tensile strength, tensile strain, and compressive strength. The swelling resistance, melting enthalpy, and melting peak temperature of the starch hydrogels improved significantly. The dual-cross-linked starch hydrogels exhibited excellent electrochemical performance, with smooth and well-symmetrical cyclic voltammetry curves, short charge–discharge times, low internal resistance, even having the ability to maintain good electrochemical stability under external loads. This work provides a strategy for designing high-performance starch-based hydrogels for flexible electronics and energy storage applications.
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