A robust and porous titanium metal–organic framework for gas adsorption, CO2 capture and conversion

Xuze Pan; Xuezhen Si; Xiaoying Zhang; Qingxia Yao; Yunwu Li; Wenzeng Duan; Yi Qiu; Jie Su; Xianqiang Huang

doi:10.1039/D2DT03158B

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A robust and porous titanium metal–organic framework for gas adsorption, CO₂ capture and conversion†

Xuze Pan,^a Xuezhen Si,^a Xiaoying Zhang,^a Qingxia Yao,

*^a Yunwu Li,

^a Wenzeng Duan,

^a Yi Qiu,*^b Jie Su^b and Xianqiang Huang

*^a

Author affiliations

* Corresponding authors

^a School of Chemistry and Chemical Engineering, and Shandong Provincial Key Laboratory/Collaborative Innovation Center of Chemical Energy Storage and Novel Cell Technology, Liaocheng University, Liaocheng 252000, China
E-mail: yaoqxlcu@163.com, hxqqxh2008@163.com

^b College of Chemistry and molecular engineering, Peking University, Beijing, PR China
E-mail: qiuyi@pku.edu.cn

Abstract

A robust and porous titanium metal–organic framework (Ti-MOF; LCU-402) has been hydrothermally synthesized through combining a tetranuclear Ti₂Ca₂(μ₃-O)₂(μ₂-H₂O)_1.3(H₂O)₄(O₂C–)₈ cluster and a tritopic 1,3,5-benzene(tris)benzoic (BTB) ligand. LCU-402 shows remarkable stability and permanent porosity for CO₂, CH₄, C₂H₂, C₂H₄, and C₂H₆ gas adsorption. Moreover, LCU-402 as a heterogeneous catalyst can smoothly convert CO₂ under a simulated flue atmosphere into organic carbonate molecules by cycloaddition reactions of CO₂ and epoxides, indicating that LCU-402 might be a promising catalyst candidate in practical applications. We are confident that the identification of a persistent titanium–oxo building unit would accelerate the development of new porous Ti-MOF materials.

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Article information

DOI: https://doi.org/10.1039/D2DT03158B
Article type: Paper
Submitted: 29 Sep 2022
Accepted: 20 Feb 2023
First published: 21 Feb 2023

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Dalton Trans., 2023,52, 3896-3906

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A robust and porous titanium metal–organic framework for gas adsorption, CO₂ capture and conversion

X. Pan, X. Si, X. Zhang, Q. Yao, Y. Li, W. Duan, Y. Qiu, J. Su and X. Huang, Dalton Trans., 2023, 52, 3896 DOI: 10.1039/D2DT03158B

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