Metal- and binder-free dual-ion battery based on green synthetic nano-embroidered spherical organic anode and pure ionic liquid electrolyte

H. Wu, Shenghao Luo, Wen Zheng, Li Li, Yaobing Fang, Wenhui Yuan
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Abstract

Dual-ion batteries (DIBs) have attracted extensive attention and investigations due to their inherent wide operating voltage and environmental friendliness. Nevertheless, the vast majority of DIBs employ metal-based anode active materials or electrolytes, which are relatively costly and unsustainable. Moreover, the utilization of binders and current collectors in the preparation of cathodes and anodes reduces the energy density to a certain extent, which weakens the advantages of DIBs. Here, we synthesized three types of binder-free nano-embroidered spherical polyimide anode materials composed entirely of renewable elements, paired with pure ionic liquid electrolyte without metal elements and flexible self-supporting independent graphite paper cathode without current collector, to construct a class of totally metal and binder-free DIBs. It significantly improves specific discharge capacity, energy density, cyclic stability, and fast charging performance while remarkably reducing costs and self-discharge rate. Additionally, we overcame the drawbacks of conventional synthesis methods and innovatively prepared nanoscale polyimide materials by a green and facile hydrothermal method, which effectively minimizes synthesis costs and avoids risks. This novel battery system design strategy will promote the advancement of low-cost, high-performance DIBs and could be a promising candidate for large-scale energy storage applications.
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基于绿色合成纳米刺绣球形有机阳极和纯离子液体电解质的无金属、无粘结剂双离子电池
双离子电池(DIB)因其固有的宽工作电压和环境友好性而受到广泛关注和研究。然而,绝大多数双离子电池都采用金属基阳极活性材料或电解质,这些材料或电解质成本相对较高,且不可持续。此外,在制备阴极和阳极的过程中,粘合剂和集流剂的使用也在一定程度上降低了能量密度,从而削弱了 DIB 的优势。在此,我们合成了三种完全由可再生元素组成的无粘结剂纳米绣花球形聚酰亚胺阳极材料,配以无金属元素的纯离子液体电解质和无集流体的柔性自支撑独立石墨纸阴极,构建了一类完全无金属、无粘结剂的DIB。它大大提高了比放电容量、能量密度、循环稳定性和快速充电性能,同时显著降低了成本和自放电率。此外,我们还克服了传统合成方法的弊端,采用绿色简便的水热法创新性地制备了纳米级聚酰亚胺材料,有效降低了合成成本并规避了风险。这种新颖的电池系统设计策略将促进低成本、高性能 DIB 的发展,有望成为大规模储能应用的候选材料。
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