Ultrastable Graphite‐Potassium Anode through Binder Chemistry

阳极 石墨 电解质 法拉第效率 材料科学 碳酸丙烯酯 化学工程 聚乙烯醇 电池(电) 碳纤维 复合材料 化学 电极 冶金 工程类 物理 物理化学 功率(物理) 复合数 量子力学
作者
Zhifei Mao,Xiaojun Shi,Taoqiu Zhang,Zhi Zheng,Xueying Liang,Rui Wang,Jun Jin,Beibei He,Yansheng Gong,Huanwen Wang
出处
期刊:Small [Wiley]
卷期号:19 (50): e2302987-e2302987 被引量:15
标识
DOI:10.1002/smll.202302987
摘要

Abstract Graphite with abundant reserves has attracted enormous research interest as an anode of potassium‐ion batteries (PIBs) owing to its high plateau capacity of 279 mAh g −1 at ≈0.2 V in conventional carbonate electrolytes. Unfortunately, it suffers from fast capacity decay during K + storage. Herein, an ultrastable graphite‐potassium anode is developed through binder chemistry. Polyvinyl alcohol (PVA) is utilized as a water‐soluble binder to generate a uniform and robust KF‐rich SEI film on the graphite surface, which can not only inhibit the electrolyte decomposition, but also withstand large volume expansion during K + ‐insertion. Compared to the PVDF as binder, PVA‐based graphite anode can operate for over 2000 cycles (running time of 406 days at C/3) with 97% capacity retention in KPF 6 ‐based electrolytes. The initial Coulombic efficiency (ICE) of graphite anode is as high as 81.6% using PVA as the binder, higher than that of PVDF (40.1%). Benefiting from the strong adhesion ability of PVA, a graphite||fluorophosphate K‐ion full battery is further built through 3D printing, which achieves a record‐high areal energy of 8.9 mWh cm −2 at a total mass loading of 38 mg cm −2 . These results demonstrate the important role of binder in developing high‐performance PIBs.
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