A CoSe-C@C core-shell structure with stable potassium storage performance realized by an effective solid electrolyte interphase layer
writer:Xin Gu*,Li Zhang, Wenchao Zhang*, Sailin Liu, Sheng Wen, Xinning Mao, Pengcheng Dai, Liangjun Li, D
keywords:core-shell structure ;solid electrolyte;potassium storage;interphase layer
source:期刊
specific source:JOURNAL OF MATERIALS CHEMISTRY A,2021,9 (18) , pp.11397-11404
Issue time:2021年
Conversion/alloying materials with high theoretical capacity are promising for potassium-ion batteries, although their development is seriously blocked owing to their volume expansion and ineffective solid-electrolyte interphase (SEI) protection. Herein, it is discovered that the performance of the CoSe anode material could be enhanced through a flexibly designed core-shell structure (denoted as CoSe-C@C) and an inorganic compound-rich SEI. The CoSe-C@C electrode exhibits stable cycling performance (432 mA h g(-1) at 200 mA g(-1)) over 1000 cycles and outstanding rate capability (233 mA h g(-1) at 10 A g(-1)). A reversible conversion mechanism for the potassiation/depotassiation in CoSe is revealed by ex situ X-ray diffraction patterns and high-resolution transmission electron microscope images, while the SEI on the CoSe-C@C surface is found to be inorganic-rich (KF-), which is favourable for K ion diffusion and charge transfer dynamics. These findings would shed light on nanostructure design strategies and our fundamental understanding of the SEI formation in electrolyte engineering for potassium-ion batteries.