Issue 96, 2021

An integrated cathode and solid electrolyte via in situ polymerization with significantly reduced interface resistance

Abstract

Reducing the interfacial resistance between solid electrolytes and electrodes is critical for developing high-energy density solid-state batteries. In the present study, a simple strategy of designing an integrated cathode and solid electrolyte (ICSE) to avoid a contact interface is proposed and successfully fulfilled with the help of UV curving. Firstly, a porous polymer film (PVDF-HFP/PVDF) was formed on the surface of the porous LiFePO4 electrode via PVP dissolution. Secondly, curable monomers, including PEGDA/PETMP/TFEMA, were filled into the porous membrane via infiltration and concentration. Lastly, the ICSE was obtained via curing with ultraviolet light. The as-prepared LiFePO4//ICSE//Li solid battery displays excellent electrochemical performance with a high reversible capacity of 153 mA h g−1 and a capacity of over 140 mA h g−1 was retained after 150 cycles at 0.1C and 25 °C. This ICSE strategy may effectively contribute to the practical application of all-solid-state batteries.

Graphical abstract: An integrated cathode and solid electrolyte via in situ polymerization with significantly reduced interface resistance

Supplementary files

Article information

Article type
Communication
Submitted
02 Sep 2021
Accepted
15 Oct 2021
First published
17 Nov 2021

Chem. Commun., 2021,57, 13004-13007

An integrated cathode and solid electrolyte via in situ polymerization with significantly reduced interface resistance

J. Yuan, R. Dong, Y. Li, Y. Liu, Z. Zheng, Y. Liu, Y. Sun, B. Zhong, Z. Wu and X. Guo, Chem. Commun., 2021, 57, 13004 DOI: 10.1039/D1CC04485K

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