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Monolithic Titanium Alkoxide Networks for Lithium-Ion Conductive All-Solid-State Electrolytes

Yue Zhang, Ying Liu, Wenda Bao, Xiangyu Zhang, Pu Yan, Xuan Yao, Mingzhu Chen, Tian‐Yi Xie, Lei Cao, Xincan Cai, Haoyuan Li, Yingdong Deng, Lianqi Zhao, Ming‐Hua Zeng, Shan Jiang, Yingbo Zhao, Jin Xie

2023Nano Letters24 citationsDOI

Abstract

Reticular chemistry provides opportunities to design solid-state electrolytes (SSEs) with modular tunability. However, SSEs based on modularly designed crystalline metal-organic frameworks (MOFs) often require liquid electrolytes for interfacial contact. Monolithic glassy MOFs can have liquid processability and uniform lithium conduction, which is promising for the reticular design of SSE without liquid electrolytes. Here, we develop a generalizable strategy for the modular design of noncrystalline SSEs based on a bottom-up synthesis of glassy MOFs. We demonstrate such a strategy by linking polyethylene glycol (PEG) struts and nanosized titanium-oxo clusters into network structures termed titanium alkoxide networks (TANs). The modular design allows the incorporation of PEG linkers with different molecular weights, which give optimal chain flexibility for high ionic conductivity, and the reticular coordinative network provides a controlled degree of cross-linking that gives adequate mechanical strength. This research shows the power of reticular design in noncrystalline molecular framework materials for SSEs.

Topics & Concepts

Materials scienceElectrolyteLithium (medication)NanotechnologyAlkoxideIonic conductivityModular designChemical engineeringChemistryOrganic chemistryComputer scienceElectrodeCatalysisMedicinePhysical chemistryEngineeringEndocrinologyOperating systemAdvanced Battery Materials and TechnologiesCovalent Organic Framework ApplicationsAdvancements in Battery Materials
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