Rigid tetraarylene-bridged cavitands from reduced-symmetry resorcin[4]arene derivatives

Jordan N. Smith; Nigel T. Lucas

doi:10.1039/c8cc01903g

Rigid tetraarylene-bridged cavitands from reduced-symmetry resorcin[4]arene derivatives

Jordan N. Smith, Nigel T. Lucas^*

^*Corresponding author for this work

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

24 Citations (Scopus)

Abstract

Container molecules (cavitands) derived from resorcin[4]arene are of broad interest in supramolecular chemistry as hosts and fragments of larger constructs. Herein is presented a new class of rigid cavitand where the resorcin[4]arene carbon framework is extended with four bridging arylene rings. Two tenable, isomeric precursors of differing symmetry (C_2v and C₄) were prepared, of which only one afforded the desired fused bowl. X-ray crystallographic studies provide conformational insight, and show that the cavitand can bind small molecules in the solid state.

Original language	English
Pages (from-to)	4716-4719
Number of pages	4
Journal	Chemical Communications
Volume	54
Issue number	37
DOIs	https://doi.org/10.1039/c8cc01903g
Publication status	Published - 2018
Externally published	Yes

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abstract = "Container molecules (cavitands) derived from resorcin[4]arene are of broad interest in supramolecular chemistry as hosts and fragments of larger constructs. Herein is presented a new class of rigid cavitand where the resorcin[4]arene carbon framework is extended with four bridging arylene rings. Two tenable, isomeric precursors of differing symmetry (C2v and C4) were prepared, of which only one afforded the desired fused bowl. X-ray crystallographic studies provide conformational insight, and show that the cavitand can bind small molecules in the solid state.",

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AB - Container molecules (cavitands) derived from resorcin[4]arene are of broad interest in supramolecular chemistry as hosts and fragments of larger constructs. Herein is presented a new class of rigid cavitand where the resorcin[4]arene carbon framework is extended with four bridging arylene rings. Two tenable, isomeric precursors of differing symmetry (C2v and C4) were prepared, of which only one afforded the desired fused bowl. X-ray crystallographic studies provide conformational insight, and show that the cavitand can bind small molecules in the solid state.

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ER -

Rigid tetraarylene-bridged cavitands from reduced-symmetry resorcin[4]arene derivatives

Abstract

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