新型“橡胶”电解质将应用于更持久、更安全的未来电动汽车电池

Xuan Zheng
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引用次数: 0

摘要

固态锂金属电池(lmb)已经成为一种潜在的组件,因为它们通过消除易燃的有机溶剂提供了相当大的安全性升级。固体聚合物电解质(spe)也是一个很有前途的候选者,因为它们无毒,制造成本低,相对柔软的性质允许与电极开发无缝界面。聚合诱导相分离(PIPS)控制相分离结构的连通性和结构域的大小,使共连续纳米结构的形成成为可能。发表在《自然》杂志上的一项研究的研究人员设想,如果离子导电材料通过PIPS在机械强度高的弹性体基体内形成3D互联相,则可以实现出色的机械和离子性能。
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Novel “Rubber” electrolyte will be applied to long-lasting, safer future EV batteries

Solid-state lithium metal batteries (LMBs) have become a potential component, as they provide a considerable safety upgrade by eliminating flammable organic solvents. Solid polymer electrolytes (SPEs) are also a promising candidate, owing to their non-toxicity, low-manufacturing cost, and comparatively soft nature that allows the development of a seamless interface with the electrodes. Polymerization-induced phase separation (PIPS) controls the connectivity of phase-separated structures and domain size, enabling the co-continuous nanostructures’ formation. Researchers of a study published in Nature envisioned that outstanding mechanical and ionic properties could be realized, provided ionic conducting materials form a 3D interconnected phase inside a mechanically strong elastomer matrix via PIPS.

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