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Blocking pore design enables highly reversible lithium–chlorine batteries

Junwei Han, Xinru Wei, Guanzhong Ma, Han Wang, Yiming Sun, Zihui Liu, Lu Zhao, Chenyu Ma, Qihao Liu, Wenting Feng, Debin Kong, Wei Lv, Quan‐Hong Yang, Linjie Zhi

2025Energy & Environmental Science12 citationsDOI

Abstract

A blocking pore design enables strong confinement and reversible conversion of chlorine species, in which a narrow pore-entrance blocking effect could confine the growth of LiCl within the pore body and suppress Cl 2 spillage from the pores.

Topics & Concepts

Blocking (statistics)ChlorineLithium (medication)Materials scienceBlock (permutation group theory)Chemical engineeringNanotechnologyComputer scienceEngineeringMetallurgyComputer networkMathematicsEndocrinologyMedicineGeometryAdvanced Battery Materials and TechnologiesExtraction and Separation Processes
Blocking pore design enables highly reversible lithium–chlorine batteries | Litcius