Double-Walled Zn36@Zn104 Multicomponent Senary Metal–Organic Polyhedral Framework and Its Isoreticular Evolution

Metal–organic polyhedral frameworks are attractive in gas storage and separation due to large voids with windows that can serve as traps for guest molecules. Introducing multivariant/multicomponent functionalities in them are ways of improving performances for certain targets. The high compatibility...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2021-11, Vol.143 (43), p.17942-17946
Main Authors: Lu, Zhiyong, Du, Liting, Guo, Ruyong, Zhang, Guangbao, Duan, Jingui, Zhang, Jianfeng, Han, Lin, Bai, Junfeng, Hupp, Joseph T
Format: Article
Language:English
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Summary:Metal–organic polyhedral frameworks are attractive in gas storage and separation due to large voids with windows that can serve as traps for guest molecules. Introducing multivariant/multicomponent functionalities in them are ways of improving performances for certain targets. The high compatibility of organic linkers can generate multivariant MOFs, but by far, the diversity of secondary building units (SBUs) in a single metal–organic framework is still limited (no more than two in most cases). Here we report a new double-walled Zn36@Zn104 metal–organic polyhedral framework (HHU-8) with five types of topologically distinct SBUs and its isoreticular evolution to the Zn36@Zn136 counterpart (HHU-8s). Both MOFs are the first to be constructed with such high numbers of topologically distinct SBUs as well as topologically distinct nodes, and their formation and evolution provide new insight into SBU’s controllability.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.1c08286