Total Syntheses Supramolecular Style: Solid-State Construction of [2.2]Cyclophanes with Modular Control of Stereochemistry

Tomislav Friščić; Elizabeth Elacqua; Saikat Dutta; Shalisa M. Oburn; Leonard R. MacGillivray

doi:10.1021/acs.cgd.9b01712

Total Syntheses Supramolecular Style: Solid-State Construction of [2.2]Cyclophanes with Modular Control of Stereochemistry

Tomislav Friščić, Elizabeth Elacqua, Saikat Dutta, Shalisa M. Oburn, Leonard R. MacGillivray

Chemistry

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

19 Citations (SciVal)

Abstract

A series of templated solid-state reactions are used to construct the â&tild;bent' isomer of the [2.2]cyclophane family of molecules. Small-molecule hydrogen-bond-donor templates based on resorcinol complete the supramolecular construction of ortho-, meta-, and para-[2.2]cyclophanes in the solid state. The family of exo,exo-dicyclobutyl[2.2]cyclophanes forms regiospecifically in up to quantitative yields. The confines of the organic solid state and the modular nature of the template approach allow for the generation of a less stable exo,endo-[2.2]metacyclophane by simply changing the template to enforce a concomitant change in self-assembly. Our results demonstrate the first completed solid-state construction of each member of the family of [2.2]cyclophanes.

Original language	English (US)
Pages (from-to)	2584-2589
Number of pages	6
Journal	Crystal Growth and Design
Volume	20
Issue number	4
DOIs	https://doi.org/10.1021/acs.cgd.9b01712
State	Published - Apr 1 2020

All Science Journal Classification (ASJC) codes

General Chemistry
General Materials Science
Condensed Matter Physics

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10.1021/acs.cgd.9b01712

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title = "Total Syntheses Supramolecular Style: Solid-State Construction of [2.2]Cyclophanes with Modular Control of Stereochemistry",

abstract = "A series of templated solid-state reactions are used to construct the {\^a}&tild;bent' isomer of the [2.2]cyclophane family of molecules. Small-molecule hydrogen-bond-donor templates based on resorcinol complete the supramolecular construction of ortho-, meta-, and para-[2.2]cyclophanes in the solid state. The family of exo,exo-dicyclobutyl[2.2]cyclophanes forms regiospecifically in up to quantitative yields. The confines of the organic solid state and the modular nature of the template approach allow for the generation of a less stable exo,endo-[2.2]metacyclophane by simply changing the template to enforce a concomitant change in self-assembly. Our results demonstrate the first completed solid-state construction of each member of the family of [2.2]cyclophanes.",

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AU - Friščić, Tomislav

AU - Elacqua, Elizabeth

AU - Dutta, Saikat

AU - Oburn, Shalisa M.

AU - MacGillivray, Leonard R.

PY - 2020/4/1

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N2 - A series of templated solid-state reactions are used to construct the â&tild;bent' isomer of the [2.2]cyclophane family of molecules. Small-molecule hydrogen-bond-donor templates based on resorcinol complete the supramolecular construction of ortho-, meta-, and para-[2.2]cyclophanes in the solid state. The family of exo,exo-dicyclobutyl[2.2]cyclophanes forms regiospecifically in up to quantitative yields. The confines of the organic solid state and the modular nature of the template approach allow for the generation of a less stable exo,endo-[2.2]metacyclophane by simply changing the template to enforce a concomitant change in self-assembly. Our results demonstrate the first completed solid-state construction of each member of the family of [2.2]cyclophanes.

AB - A series of templated solid-state reactions are used to construct the â&tild;bent' isomer of the [2.2]cyclophane family of molecules. Small-molecule hydrogen-bond-donor templates based on resorcinol complete the supramolecular construction of ortho-, meta-, and para-[2.2]cyclophanes in the solid state. The family of exo,exo-dicyclobutyl[2.2]cyclophanes forms regiospecifically in up to quantitative yields. The confines of the organic solid state and the modular nature of the template approach allow for the generation of a less stable exo,endo-[2.2]metacyclophane by simply changing the template to enforce a concomitant change in self-assembly. Our results demonstrate the first completed solid-state construction of each member of the family of [2.2]cyclophanes.

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Total Syntheses Supramolecular Style: Solid-State Construction of [2.2]Cyclophanes with Modular Control of Stereochemistry

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