Synthesis of a Large, Shape-Flexible, Solvatomorphic Porous Organic Cage | Zendy

Baiyang Teng | Zendy; Marc A. Little | Zendy; Tom Hasell | Zendy; Samantha Y. Chong | Zendy; Kim E. Jelfs | Zendy; Rob Clowes | Zendy; Michael E. Briggs | Zendy; Andrew I. Cooper | Zendy

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Synthesis of a Large, Shape-Flexible, Solvatomorphic Porous Organic Cage

Author(s) -

Baiyang Teng,

Marc A. Little,

Tom Hasell,

Samantha Y. Chong,

Kim E. Jelfs,

Rob Clowes,

Michael E. Briggs,

Andrew I. Cooper

Publication year - 2019

Publication title -

crystal growth and design

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.966

H-Index - 155

eISSN - 1528-7505

pISSN - 1528-7483

DOI - 10.1021/acs.cgd.8b01761

Subject(s) - cage , microporous material , porosity , materials science , crystallization , crystallography , imine , flexibility (engineering) , chemical engineering , chemistry , nanotechnology , composite material , organic chemistry , statistics , mathematics , combinatorics , engineering , catalysis

Porous organic cages have emerged over the last 10 years as a subclass of functional microporous materials. However, among all of the organic cages reported, large multicomponent organic cages with 20 components or more are still rare. Here, we present an [8 + 12] porous organic imine cage, CC20 , which has an apparent surface area up to 1752 m 2 g -1 , depending on the crystallization and activation conditions. The cage is solvatomorphic and displays distinct geometrical cage structures, caused by crystal-packing effects, in its crystal structures. This indicates that larger cages can display a certain range of shape flexibility in the solid state, while remaining shape persistent and porous.

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