Eight‐Electron Redox Cyclohexanehexone Anode for High‐Rate High‐Capacity Lithium Storage

阳极 材料科学 电化学 电解质 锂(药物) 氧化还原 化学工程 无机化学 电极 物理化学 化学 冶金 医学 工程类 内分泌学
作者
Sha Li,Jiande Lin,Yimiao Zhang,Shilin Zhang,Tao Jiang,Zhongli Hu,Junjie Liu,De‐Yin Wu,Li Zhang,Zhong‐Qun Tian
出处
期刊:Advanced Energy Materials [Wiley]
卷期号:12 (30) 被引量:44
标识
DOI:10.1002/aenm.202201347
摘要

Abstract Replacing inorganic anodes with organic electrode materials is an attractive direction for future green Li‐ion batteries (LIBs). Carbonyl compounds are being explored as leading anode candidates for organic LIBs. In particular, cyclohexanehexanone (C 6 O 6 ), as a perfect structure composed entirely of six CO groups, can theoretically contribute to the most reactive sites and the highest specific capacity, but has not been used as an anode material so far owing to its high solubility in carbonate‐based electrolytes and extremely low electronic conductivity. Herein, C 6 O 6 is first revealed as an ultra‐high capacity and high‐rate anode material through a total eight‐electron redox electrochemical process by effectively constructing an insoluble and highly conductive C 6 O 6 ‐polymeric binder‐carbon network architecture. Experimental characterizations combined with first‐principles calculations elucidate that CO bonds in C 6 O 6 can be lithiated to Li + enolate (Li 6 C 6 O 6 ) through a reversible six‐Li‐ion electrochemical process and further converted to Li 8 C 6 O 6 dimers via a reversible two‐electron pseudocapacitive Li + intercalation reaction. As such, the C 6 O 6 anode shows an ultrahigh capacity of up to 1404 mAh g −1 at 200 mA g −1 and an extraordinary high‐rate durability (814 mAh g −1 after 700 cycles at 5.0 A g− 1 ). A 4.3 V high energy/power density Li‐ion hybrid electrochemical capacitor based on the C 6 O 6 anode is thus derived.
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