Crystal Engineering of an nbo Topology Metal–Organic Framework for Chemical Fixation of CO 2  under Ambient Conditions

Gao, Wen‐Yang; Chen, Yao; Niu, Youhong; Williams, Kia; Cash, Lindsay; Perez, P.J.; Wojtas, Łukasz; Cai, Jianfeng; Chen, Yu‐Sheng; Ma, Shengqian

doi:10.1002/anie.201309778

articleAngewandte Chemie International EditionFeb 4, 2014Closed access

Crystal Engineering of an nbo Topology Metal–Organic Framework for Chemical Fixation of CO 2 under Ambient Conditions

WGWen‐Yang Gao YCYao Chen YNYouhong Niu KWKia Williams LCLindsay Cash

University of South Florida · University of Chicago

PubMed

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Abstract

Crystal engineering of the nbo metal-organic framework (MOF) platform MOF-505 with a custom-designed azamacrocycle ligand (1,4,7,10-tetrazazcyclododecane-N,N',N'',N'''-tetra-p-methylbenzoic acid) leads to a high density of well-oriented Lewis active sites within the cuboctahedral cage in MMCF-2, [Cu2(Cu-tactmb)(H2O)3(NO3)2]. This MOF demonstrates high catalytic activity for the chemical fixation of CO2 into cyclic carbonates at room temperature under 1 atm pressure.

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Keywords

Natural bond orbital
Crystal engineering
Topology (electrical circuits)
Metal
Materials science
Crystal (programming language)
Metal-organic framework
Crystal structure

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