为未来赋能：电池应用中的激进聚合物。

Powering up the future: radical polymers for battery applications.

机构信息

Laboratory of Organic and Macromolecular Chemistry (IOMC), Friedrich-Schiller-University Jena, Humboldtstr. 10, D-07743 Jena, Germany.

出版信息

Adv Mater. 2012 Dec 18;24(48):6397-409. doi: 10.1002/adma.201203119.

DOI:10.1002/adma.201203119

PMID:23238940

Abstract

Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will eventually culminate in resource wars on limited commodities like lithium, cobalt, and rare earth metals. The substitution of conventional metals as means of electric charge storage by organic and polymeric materials, which may ultimately be derived from renewable resources, appears to be the only feasible way out. In this context, the novel class of organic radical batteries (ORBs) excelling in rate capability (i.e., charging speed) and cycling stability (>1000 cycles) sets new standards in battery research. This review examines stable nitroxide radical bearing polymers, their processing to battery systems, and their promising performance.

摘要

我们的社会依赖于便携式电能，即可在任何地点和任何时间使用的充电电池，这最终将导致对有限商品（如锂、钴和稀土金属）的资源战争。用有机和聚合材料替代传统的金属作为电荷存储手段，这些材料最终可能来自可再生资源，这似乎是唯一可行的出路。在这种情况下，新型有机自由基电池（ORB）在倍率性能（即充电速度）和循环稳定性（>1000 次循环）方面表现出色，为电池研究树立了新的标准。本文综述了稳定的氮氧自由基聚合物，它们的电池系统加工以及它们有希望的性能。

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为未来赋能：电池应用中的激进聚合物。

Powering up the future: radical polymers for battery applications.

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