Significantly Enhancing the Lithium Ionic Conductivity of Metal–Organic Frameworks via a Postsynthetic Modification Strategy
Li Tian, Xuebin Xu, Meiying Liu, Zixin Liu, Zixin Liu, Zhiliang Liu, Zhiliang Liu
Abstract
Metal–organic frameworks (MOFs), due to their possessing a porous structure, are potential candidates for solid-state ionic conduction materials. Moreover, uncoordinated carboxylic acid groups (−COOH) of MOFs can be used as postsynthetic modification sites, which are favorable for lithium ion exchange. Herein, we synthesized a unique multiple carboxylic zinc metal–organic framework (Zn-MOF-COOH) containing uncoordinated carboxylic acid groups. Zn-MOF-COOLi was synthesized through deprotonation using LiOH via a straightforward acid–base reaction at room temperature (RT), thereby exhibiting better good electrochemical properties. The lithium ionic conductivity (σ) increased from 1.81 × 10 –5 to 1.65 × 10 –4 S·cm –1, lithium ion transference number ( t Li + ) rose from 0.67 to 0.77, and the electrochemical window improved from 2.0–5.5 to 1.5–6.5 V. This work offers a new strategy to improve the σ of MOFs and a new perspective toward manufacturing of high-performance solid-state ionic conduction materials.