Temperature Controls Guest Uptake and Release from Zn4L4 Tetrahedra | Zendy

Dawei Zhang | Zendy; Tanya K. Ronson | Zendy; Songül Güryel | Zendy; John D. Thoburn | Zendy; David J. Wales | Zendy; Jonathan R. Nitschke | Zendy

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Temperature Controls Guest Uptake and Release from Zn₄L₄ Tetrahedra

Author(s) -

Dawei Zhang,

Tanya K. Ronson,

Songül Güryel,

John D. Thoburn,

David J. Wales,

Jonathan R. Nitschke

Publication year - 2019

Publication title -

journal of the american chemical society

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 7.115

H-Index - 612

eISSN - 1520-5126

pISSN - 0002-7863

DOI - 10.1021/jacs.9b07307

Subject(s) - chemistry , tetrahedron , diastereomer , crystallography , ligand (biochemistry) , molecule , cage , stereochemistry , organic chemistry , receptor , combinatorics , biochemistry , mathematics

We report the preparation of triazatruxene-faced tetrahedral cage 1 , which exhibits two diastereomeric configurations ( T1 and T2 ) that differ in the handedness of the ligand faces relative to that of the octahedrally coordinated metal centers. At lower temperatures, T1 is favored, whereas T2 predominates at higher temperatures. Host-guest studies show that T1 binds small aliphatic guests, whereas T2 binds larger aromatic molecules, with these changes in binding preference resulting from differences in cavity size and degree of enclosure. Thus, by a change in temperature the cage system can be triggered to eject one bound guest and take up another.

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