Modulated Multicomponent Reaction Pathway by Pore‐Confinement Effect in MOFs for Highly Efficient Catalysis of Low‐Concentration CO  2

Ren, Fang‐Yu; Hu, Chaopeng; Huang, Wen‐Bin; Duan, Ling‐Hao; Meng, Yun‐Zhu; Li, Xiu‐Lan; Fang, Zhi; Zhao, Xin‐Yuan; Wang, Wen; Li, Xiang‐Shuai; Zhao, Jian; Zhang, Xiang‐Yu; Hou, Sheng‐Li; Xu, Hang; Shi, Ying; He, Liang‐Nian; Zhao, Bin

doi:10.1002/anie.202503898

articleAngewandte Chemie International EditionMar 11, 2025BRONZE OA

Modulated Multicomponent Reaction Pathway by Pore‐Confinement Effect in MOFs for Highly Efficient Catalysis of Low‐Concentration CO 2

FRFang‐Yu RenCHChaopeng HuWHWen‐Bin HuangLDLing‐Hao DuanYMYun‐Zhu Meng

Nankai University

PubMed

Indexed incrossrefpubmed

Abstract

Abstract The conversion of flue gas CO 2 into high‐value chemicals via multicomponent reactions (MCRs) offers the advantages of atom economy, bond‐formation efficiency and product complexity. However, because of the competition between reaction sequences and pathways among substrates, the efficient synthesize the desired product is a great challenge. Herein, a porous noble‐metal‐free framework ( Cu‐TCA) was synthesized, which can highly effectively catalyze the multicomponent conversion of CO 2 by modulating reaction pathways. The pores with the size of 6.5 Å×6.5 Å in Cu‐TCA selectively permit the entry of propargylamine and CO 2 at simulated flue gas concentrations, At the same time, the larger‐sized…

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52

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Authors

17

FR
Fang‐Yu Ren
Nankai University
CH
Chaopeng Hu
Nankai University
WH
Wen‐Bin Huang
Nankai University
LD
Ling‐Hao Duan
Nankai University
YM
Yun‐Zhu Meng
Nankai University

Topics & keywords

Topics

Keywords

Catalysis
Chemical engineering
Materials science
Nanotechnology
Chemistry
Organic chemistry
Engineering

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Funding

NN
National Natural Science Foundation of China
Award: 92161202