Hydrophilic polyanionic hydrogel electrolyte for anti-freezing and bending resistant zinc-ion hybrid supercapacitors

IF 8.4 1区 材料科学 Q1 CHEMISTRY, PHYSICAL
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Abstract

Zinc-ion hybrid supercapacitors (ZHSCs) have been widely considered as promising candidates for flexible electrochemical energy storage devices. The key challenge is to develop hydrogel electrolytes with high hydrophilicity, anti-freezing, bending resistance, and stable interface with electrodes. This study reported a hydrogel electrolyte system that can meet the above functions, in which the zincophilic and negatively charged SO3, migratable Na+, abundant hydrophilic functional groups, gum xanthan, and porous architecture could effectively promote the electrochemical performance of ZHSCs. ZHSCs with such hydrogel electrolytes not only exhibited good low-temperature performance but also showed excellent bending resistance ability. A high specific capacitance could be kept after a long air-working lifespan over 10,000 cycles under a wide operation voltage of 1.85 V at −10 °C. Furthermore, flexible ZHSCs could maintain the capacitance retention of 93.18% even after continuous 500 bends at an angle of 180°. The designed hydrogel electrolytes could be also used for other electrochemical energy storage devices with anti-freezing and bending resistance by changing electrolyte salt.

Abstract Image

用于抗冻和抗弯锌离子混合超级电容器的亲水性聚阴离子水凝胶电解质
锌离子混合超级电容器(ZHSCs)被广泛认为是柔性电化学储能装置的理想候选材料。关键的挑战在于开发具有高亲水性、抗冻性、抗弯曲性以及与电极稳定界面的水凝胶电解质。本研究报道了一种能满足上述功能的水凝胶电解质体系,其中亲锌带负电的 SO、可迁移的 Na、丰富的亲水官能团、黄原胶和多孔结构能有效促进 ZHSCs 的电化学性能。含有这种水凝胶电解质的 ZHSCs 不仅具有良好的低温性能,还表现出优异的抗弯曲能力。在-10 °C、1.85 V的宽工作电压下,经过超过10,000次循环的长时间空气工作后,仍能保持较高的比电容。此外,即使以 180° 的角度连续弯曲 500 次,柔性 ZHSC 也能保持 93.18% 的电容保持率。通过改变电解质盐,所设计的水凝胶电解质还可用于其他具有抗冻和抗弯曲性能的电化学储能装置。
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来源期刊
Journal of Materiomics
Journal of Materiomics Materials Science-Metals and Alloys
CiteScore
14.30
自引率
6.40%
发文量
331
审稿时长
37 days
期刊介绍: The Journal of Materiomics is a peer-reviewed open-access journal that aims to serve as a forum for the continuous dissemination of research within the field of materials science. It particularly emphasizes systematic studies on the relationships between composition, processing, structure, property, and performance of advanced materials. The journal is supported by the Chinese Ceramic Society and is indexed in SCIE and Scopus. It is commonly referred to as J Materiomics.
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