Potassium binding adjacent to cationic transition-metal fragments: unusual heterobimetallic adducts of a Calix[4]arene-based thione ligand
Potassium binding adjacent to cationic transition-metal fragments: unusual heterobimetallic adducts of a Calix[4]arene-based thione ligand
The synthesis of cationic rhodium and iridium complexes of a bis(imidazole-2-thione)-functionalized calix[4]arene ligand and their surprising capacity for potassium binding are described. In both cases, uptake of the alkali metal into the calix[4]arene cavity occurs despite adverse electrostatic interactions associated with close proximity to the transition-metal fragment [Rh+···K+ = 3.715(1) Å Ir+···K+ = 3.690(1) Å]. The formation and constituent bonding of these unusual heterobimetallic adducts have been interrogated through extensive solution and solid-state characterization, examination of the host-guest chemistry of the ligand and its upper-rim unfunctionalized calix[4]arene analogue, and use of density functional theory based energy decomposition analysis.
14345-14350
Patchett, Ruth
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Knighton, Richard C.
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Mattock, James D.
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Vargas, Alfredo
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Chaplin, Adrian B.
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2 November 2017
Patchett, Ruth
18b8deca-c53f-494d-8394-2770dc9542f6
Knighton, Richard C.
5a63128e-0ebd-466a-b327-3aee6e85a76d
Mattock, James D.
ef970cec-1509-4b7a-a463-70cebf4b18d2
Vargas, Alfredo
81648c3f-59d5-4d8d-ad72-273ec8229054
Chaplin, Adrian B.
6af87db8-8153-44ea-88ef-e25eb2cd5f9d
Patchett, Ruth, Knighton, Richard C., Mattock, James D., Vargas, Alfredo and Chaplin, Adrian B.
(2017)
Potassium binding adjacent to cationic transition-metal fragments: unusual heterobimetallic adducts of a Calix[4]arene-based thione ligand.
Inorganic Chemistry, 56 (22), .
(doi:10.1021/acs.inorgchem.7b02441).
Abstract
The synthesis of cationic rhodium and iridium complexes of a bis(imidazole-2-thione)-functionalized calix[4]arene ligand and their surprising capacity for potassium binding are described. In both cases, uptake of the alkali metal into the calix[4]arene cavity occurs despite adverse electrostatic interactions associated with close proximity to the transition-metal fragment [Rh+···K+ = 3.715(1) Å Ir+···K+ = 3.690(1) Å]. The formation and constituent bonding of these unusual heterobimetallic adducts have been interrogated through extensive solution and solid-state characterization, examination of the host-guest chemistry of the ligand and its upper-rim unfunctionalized calix[4]arene analogue, and use of density functional theory based energy decomposition analysis.
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acs.inorgchem.7b02441
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Published date: 2 November 2017
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Local EPrints ID: 482119
URI: http://eprints.soton.ac.uk/id/eprint/482119
ISSN: 0020-1669
PURE UUID: bce7608b-64fb-4069-9a5b-e2faaf26787a
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Date deposited: 19 Sep 2023 16:58
Last modified: 18 Mar 2024 04:15
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Author:
Ruth Patchett
Author:
Richard C. Knighton
Author:
James D. Mattock
Author:
Alfredo Vargas
Author:
Adrian B. Chaplin
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