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Tetrazole-Functionalized Zirconium Metal-Organic Cages for Efficient C H /C H and C H /CO Separations. | LitMetric
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Tetrazole-Functionalized Zirconium Metal-Organic Cages for Efficient C H /C H and C H /CO Separations.

Weidong Fan Shing Bo Peh Zhaoqiang Zhang Hongye Yuan Ziqi Yang Yuxiang Wang Kungang Chai Daofeng Sun Dan Zhao

Angew Chem Int Ed Engl

Department of Chemical and Biomolecular Engineering, National University of Singapore, 4 Engineering Drive 4, Singapore, 117585, Singapore.

Published: August 2021

AI Article Synopsis

  • Isoreticular functionalization is a useful approach for adjusting the pore environment in frameworks for better gas separation.
  • The research successfully applies this method to a zirconium metal-organic cage (MOC) using a tetrazole group, despite challenges in synthesis and stability.
  • The resulting compound (ZrT-1-tetrazol) exhibits strong separation abilities for C H /CO and C H /C H, suggesting that insights from MOCs can help create new materials for difficult separation tasks.

Article Abstract

Isoreticular functionalization is a well-elucidated strategy for pore environment tuning and the basis of gas separation performance in extended frameworks. The extension of this approach to discrete porous molecules such as metal-organic cages (MOCs) is conceptually straightforward but hindered by synthetic complications, especially stability concerns. We report the successful isoreticular functionalization of a zirconium MOC with tetrazole moiety by bottom-up synthesis. The title compound (ZrT-1-tetrazol) shows promising C H /CO and C H /C H separation performance, as demonstrated by adsorption isotherms, breakthrough experiments, and density functional theory calculations. The design analogy between MOFs and highly stable MOCs may guide the synthesis of novel porous materials for challenging separation applications.

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 Source
http://dx.doi.org/10.1002/anie.202102585DOI Listing

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