Melt-quenched glass formation of a family of metal-carboxylate frameworks

Author:

Xue Wen-LongORCID,Li Guo-QiangORCID,Chen Hui,Han Yu-Chen,Feng Li,Wang Lu,Gu Xiao-Ling,Hu Si-Yuan,Deng Yu-Heng,Tan Lei,Dove Martin T.,Li WeiORCID,Zhang JiangweiORCID,Dong Hongliang,Chen Zhiqiang,Deng Wei-Hua,Xu GangORCID,Wang Guo,Wan Chong-QingORCID

Abstract

AbstractMetal-organic framework (MOF) glasses are an emerging class of glasses which complement traditional inorganic, organic and metallic counterparts due to their hybrid nature. Although a few zeolitic imidazolate frameworks have been made into glasses, how to melt and quench the largest subclass of MOFs, metal carboxylate frameworks, into glasses remains challenging. Here, we develop a strategy by grafting the zwitterions on the carboxylate ligands and incorporating organic acids in the framework channels to enable the glass formation. The charge delocalization of zwitterion-acid subsystem and the densely filled channels facilitate the coordination bonding mismatch and thus reduce the melting temperature. Following melt-quenching realizes the glass formation of a family of carboxylate MOFs (UiO-67, UiO-68 and DUT-5), which are usually believed to be un-meltable. Our work opens up an avenue for melt-quenching porous molecular solids into glasses.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Beijing Municipality

Publisher

Springer Science and Business Media LLC

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