Transformation Network Culminating in a Heteroleptic Cd6L6L′2Twisted Trigonal Prism

Dawei Zhang; Tanya K. Ronson; Lin Xu; Lin Xu; Jonathan R. Nitschke

doi:10.1021/jacs.0c03798

Transformation Network Culminating in a Heteroleptic Cd₆L₆L′₂Twisted Trigonal Prism

Dawei Zhang, Tanya K. Ronson, Lin Xu, Lin Xu, Jonathan R. Nitschke

School of Chemistry and Molecular Engineering

University of Cambridge

Research output: Contribution to journal › Article › peer-review

46 Scopus citations

Abstract

Transformations between three-dimensional metallosupramolecular assemblies can enable switching between the different functions of these structures. Here we report a network of such transformations, based upon a subcomponent displacement strategy. The flow through this network is directed by the relative reactivities of different amines, aldehydes, and di(2-pyridyl)ketone. The network provides access to an unprecedented heteroleptic Cd6L6L′2 twisted trigonal prism. The principles underpinning this network thus allow for the design of diverse structural transformations, converting one helicate into another, a helicate into a tetrahedron, a tetrahedron into a different tetrahedron, and a tetrahedron into the new trigonal prismatic structure type. The selective conversion from one host to another also enabled the uptake of a desired guest from a mixture of guests.

Original language	English
Pages (from-to)	9152-9157
Number of pages	6
Journal	Journal of the American Chemical Society
Volume	142
Issue number	20
DOIs	https://doi.org/10.1021/jacs.0c03798
State	Published - 20 May 2020

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title = "Transformation Network Culminating in a Heteroleptic Cd6L6L′2Twisted Trigonal Prism",

abstract = "Transformations between three-dimensional metallosupramolecular assemblies can enable switching between the different functions of these structures. Here we report a network of such transformations, based upon a subcomponent displacement strategy. The flow through this network is directed by the relative reactivities of different amines, aldehydes, and di(2-pyridyl)ketone. The network provides access to an unprecedented heteroleptic Cd6L6L′2 twisted trigonal prism. The principles underpinning this network thus allow for the design of diverse structural transformations, converting one helicate into another, a helicate into a tetrahedron, a tetrahedron into a different tetrahedron, and a tetrahedron into the new trigonal prismatic structure type. The selective conversion from one host to another also enabled the uptake of a desired guest from a mixture of guests.",

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T1 - Transformation Network Culminating in a Heteroleptic Cd6L6L′2Twisted Trigonal Prism

AU - Zhang, Dawei

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AU - Nitschke, Jonathan R.

PY - 2020/5/20

Y1 - 2020/5/20

N2 - Transformations between three-dimensional metallosupramolecular assemblies can enable switching between the different functions of these structures. Here we report a network of such transformations, based upon a subcomponent displacement strategy. The flow through this network is directed by the relative reactivities of different amines, aldehydes, and di(2-pyridyl)ketone. The network provides access to an unprecedented heteroleptic Cd6L6L′2 twisted trigonal prism. The principles underpinning this network thus allow for the design of diverse structural transformations, converting one helicate into another, a helicate into a tetrahedron, a tetrahedron into a different tetrahedron, and a tetrahedron into the new trigonal prismatic structure type. The selective conversion from one host to another also enabled the uptake of a desired guest from a mixture of guests.

AB - Transformations between three-dimensional metallosupramolecular assemblies can enable switching between the different functions of these structures. Here we report a network of such transformations, based upon a subcomponent displacement strategy. The flow through this network is directed by the relative reactivities of different amines, aldehydes, and di(2-pyridyl)ketone. The network provides access to an unprecedented heteroleptic Cd6L6L′2 twisted trigonal prism. The principles underpinning this network thus allow for the design of diverse structural transformations, converting one helicate into another, a helicate into a tetrahedron, a tetrahedron into a different tetrahedron, and a tetrahedron into the new trigonal prismatic structure type. The selective conversion from one host to another also enabled the uptake of a desired guest from a mixture of guests.

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Transformation Network Culminating in a Heteroleptic Cd₆L₆L′₂Twisted Trigonal Prism

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