25 Years of Reticular Chemistry

Ralph Freund; Stefano Canossa; Seth M. Cohen; Wei Yan; Hexiang Deng; Vincent Guillerm; Mohamed Eddaoudi; David G. Madden; David Fairen‐Jiménez; Hao Lyu; Lauren K. Macreadie; Zhe Ji; Yuanyuan Zhang; Bo Wang; Frederik Haase; Christof Wöll; Orysia Zaremba; Jacopo Andreo; Stefan Wuttke; Christian S. Diercks

doi:10.1002/anie.202101644

25 Years of Reticular Chemistry

Ralph Freund(University of Augsburg), Stefano Canossa(University of Antwerp), Seth M. Cohen(University of San Diego), Wei Yan(Wuhan University), Hexiang Deng(Wuhan University), Vincent Guillerm(King Abdullah University of Science and Technology), Mohamed Eddaoudi(King Abdullah University of Science and Technology), David G. Madden(Advanced Materials Corporation (United States)), David Fairen‐Jiménez(Advanced Materials Corporation (United States)), Hao Lyu(University of California, Berkeley), Lauren K. Macreadie(The University of Sydney), Zhe Ji(Stanford University), Yuanyuan Zhang(Beijing Institute of Technology), Bo Wang(Beijing Institute of Technology), Frederik Haase(Karlsruhe Institute of Technology), Christof Wöll(Karlsruhe Institute of Technology), Orysia Zaremba(Basque Center for Materials, Applications and Nanostructures), Jacopo Andreo(Basque Center for Materials, Applications and Nanostructures), Stefan Wuttke(Ikerbasque), Christian S. Diercks(Scripps Research Institute)

Angewandte Chemie International Edition

March 30, 2021

10.1002/anie.202101644

Cited by 409Open Access

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Abstract

At its core, reticular chemistry has translated the precision and expertise of organic and inorganic synthesis to the solid state. While initial excitement over metal-organic frameworks (MOFs) and covalent organic frameworks (COFs) was undoubtedly fueled by their unprecedented porosity and surface areas, the most profound scientific innovation of the field has been the elaboration of design strategies for the synthesis of extended crystalline solids through strong directional bonds. In this contribution we highlight the different classes of reticular materials that have been developed, how these frameworks can be functionalized, and how complexity can be introduced into their backbones. Finally, we show how the structural control over these materials is being extended from the molecular scale to their crystal morphology and shape on the nanoscale, all the way to their shaping on the bulk scale.

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