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Architectural diversity in the solid-state behaviour of crown ether and [2.2.2]-cryptand complexes of K+TCNQ˙− salts

Architectural diversity in the solid-state behaviour of crown ether and [2.2.2]-cryptand complexes of K+TCNQ˙− salts
Architectural diversity in the solid-state behaviour of crown ether and [2.2.2]-cryptand complexes of K+TCNQ˙− salts
The solid-state behaviour of five ionophore-encapsulated TCNQ complexes: (18-crown-6)K(TCNQ)2.5 (1), ([2.2.2]-cryptand)K(TCNQ)2.5 (2), (benzo-18-crown-6)K(TCNQ)2 (3), (dibenzo-18-crown-6)K(TCNQ)2 (4), and (dicyclohexano-18-crown-6)K(TCNQ)3 (5) has been explored. For both 1 and 2, the TCNQ components assemble as a pentameric repeat unit within infinite TCNQ columns with the cation complex sitting in a cavity between the columns; whereas for 3 and 4, neighbouring (crown ether)K+ complexes form dimers involving K+–π interactions which further assemble into one-dimensional columns sitting between infinite TCNQ stacks. In the solid-state complex 5, the crown ether adopts a chair conformation with the resulting (crown ether)K+ complex assembling into a one-dimensional ladder. Pairs of TCNQ dimers separated by an isolated TCNQ unit form infinite TCNQ columns. IR and Raman spectroscopy reveal the presence of partially charged TCNQ units within all five TCNQ complexes (1–5) and resistivity studies indicate that all five TCNQ complexes (1–5) are more conductive than the corresponding simple KTCNQ salts. Preliminary EPR studies of 1 and 2 indicate typical behaviour of complex TCNQ salts (containing both TCNQ0 and TCNQ˙−).
1466-8033
6705-6714
Yan, Bingjia
f15338c5-af00-41cf-9bd5-95f5f30ca617
Horton, Peter
154c8930-bfc3-495b-ad4a-8a278d5da3a5
Weston, Simon
a1f89a93-6d78-4204-a004-5fa6220660e9
Wedge, Christopher J.
91cc8793-b445-40d2-850b-3bde9d566bb9
Russell, Andrea E.
b6b7c748-efc1-4d5d-8a7a-8e4b69396169
Grossel, Martin
403bf3ff-6364-44e9-ab46-52d84c6f0d56
Yan, Bingjia
f15338c5-af00-41cf-9bd5-95f5f30ca617
Horton, Peter
154c8930-bfc3-495b-ad4a-8a278d5da3a5
Weston, Simon
a1f89a93-6d78-4204-a004-5fa6220660e9
Wedge, Christopher J.
91cc8793-b445-40d2-850b-3bde9d566bb9
Russell, Andrea E.
b6b7c748-efc1-4d5d-8a7a-8e4b69396169
Grossel, Martin
403bf3ff-6364-44e9-ab46-52d84c6f0d56

Yan, Bingjia, Horton, Peter, Weston, Simon, Wedge, Christopher J., Russell, Andrea E. and Grossel, Martin (2022) Architectural diversity in the solid-state behaviour of crown ether and [2.2.2]-cryptand complexes of K+TCNQ˙− salts. CrystEngComm, 24 (38), 6705-6714. (doi:10.1039/D2CE00773H).

Record type: Article

Abstract

The solid-state behaviour of five ionophore-encapsulated TCNQ complexes: (18-crown-6)K(TCNQ)2.5 (1), ([2.2.2]-cryptand)K(TCNQ)2.5 (2), (benzo-18-crown-6)K(TCNQ)2 (3), (dibenzo-18-crown-6)K(TCNQ)2 (4), and (dicyclohexano-18-crown-6)K(TCNQ)3 (5) has been explored. For both 1 and 2, the TCNQ components assemble as a pentameric repeat unit within infinite TCNQ columns with the cation complex sitting in a cavity between the columns; whereas for 3 and 4, neighbouring (crown ether)K+ complexes form dimers involving K+–π interactions which further assemble into one-dimensional columns sitting between infinite TCNQ stacks. In the solid-state complex 5, the crown ether adopts a chair conformation with the resulting (crown ether)K+ complex assembling into a one-dimensional ladder. Pairs of TCNQ dimers separated by an isolated TCNQ unit form infinite TCNQ columns. IR and Raman spectroscopy reveal the presence of partially charged TCNQ units within all five TCNQ complexes (1–5) and resistivity studies indicate that all five TCNQ complexes (1–5) are more conductive than the corresponding simple KTCNQ salts. Preliminary EPR studies of 1 and 2 indicate typical behaviour of complex TCNQ salts (containing both TCNQ0 and TCNQ˙−).

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Accepted/In Press date: 31 August 2022
e-pub ahead of print date: 1 September 2022
Published date: 3 October 2022
Additional Information: Funding Information: We thank the EPSRC UK National Crystallography Service at the University of Southampton for the collection of the crystallographic data20 and Spectroscopy RTP at the University of Warwick for access to EPR facilities. Publisher Copyright: © 2022 The Royal Society of Chemistry.
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Identifiers

Local EPrints ID: 471282
URI: http://eprints.soton.ac.uk/id/eprint/471282
DOI: doi:10.1039/D2CE00773H
ISSN: 1466-8033
PURE UUID: ba20a09a-211f-40d8-a62d-d584a462b6f9
ORCID for Peter Horton: ORCID iD orcid.org/0000-0001-8886-2016
ORCID for Andrea E. Russell: ORCID iD orcid.org/0000-0002-8382-6443
ORCID for Martin Grossel: ORCID iD orcid.org/0000-0001-7469-6854

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Date deposited: 02 Nov 2022 17:34
Last modified: 06 Jun 2024 01:38

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Contributors

Author: Bingjia Yan
Author: Peter Horton ORCID iD
Author: Simon Weston
Author: Christopher J. Wedge
Author: Andrea E. Russell ORCID iD
Author: Martin Grossel ORCID iD

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