Electrochemical, spectroelectrochemical, and comparative studies of novel organic conjugated monomers and polymers featuring the redox-active unit tetrathianaphthalene
Electrochemical, spectroelectrochemical, and comparative studies of novel organic conjugated monomers and polymers featuring the redox-active unit tetrathianaphthalene
A series of monomers has been synthesized and characterized on the basis of the incorporation of tetrathianaphthalene (1) and its saturated (2) and open cyclic (3) forms as fused side groups onto polythiophene chains. The X-ray crystal structures of compounds 1 and 2 are reported. Tetrathianaphthalene (TTN) is an isomer of tetrathiafulvalene (TTF) however, monomer and polymer versions of 1 do not show any similarity to TTF in cyclic voltammetry (CV) or spectroelectrochemical measurements. CV experiments have shown that 1 and 3 are easier to oxidize than 2, whereas 1 also has an additional reduction peak, giving it a smaller HOMO-LUMO gap than the other two monomers. All three polymers of 1-3 have nearly the same oxidation and reduction potentials as well as band gaps; small variations can be attributed to the differences in the side groups. Spectroelectrochemical measurements revealed that the polymers showed electrochromic behavior; switching times and colorimetry 0 measurements are reported. From this data, all three polymers have a color change of red to yellow with poly(3) having the best color contrast and percentage change in absorbance from various switching times.
2570-2580
Forgie, John C.
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Kanibolotsky, Alexander L.
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Skabara, Peter J.
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Coles, Simon J.
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Hursthouse, Michael B.
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Harrington, Ross W.
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Clegg, William
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14 April 2009
Forgie, John C.
c7d06ee3-b033-4f78-bee4-b143c52e3ab5
Kanibolotsky, Alexander L.
ce9e994f-9860-4cb6-be07-4e82b48c1fa8
Skabara, Peter J.
7138e414-7d50-41c7-933e-0bccad2fa4cd
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Hursthouse, Michael B.
57a2ddf9-b1b3-4f38-bfe9-ef2f526388da
Harrington, Ross W.
01d1f0bc-fc3e-43ae-a087-6cce0278128e
Clegg, William
5b1994af-8799-4402-9c01-8479959de00b
Forgie, John C., Kanibolotsky, Alexander L., Skabara, Peter J., Coles, Simon J., Hursthouse, Michael B., Harrington, Ross W. and Clegg, William
(2009)
Electrochemical, spectroelectrochemical, and comparative studies of novel organic conjugated monomers and polymers featuring the redox-active unit tetrathianaphthalene.
Macromolecules, 42 (7), .
(doi:10.1021/ma900010n).
Abstract
A series of monomers has been synthesized and characterized on the basis of the incorporation of tetrathianaphthalene (1) and its saturated (2) and open cyclic (3) forms as fused side groups onto polythiophene chains. The X-ray crystal structures of compounds 1 and 2 are reported. Tetrathianaphthalene (TTN) is an isomer of tetrathiafulvalene (TTF) however, monomer and polymer versions of 1 do not show any similarity to TTF in cyclic voltammetry (CV) or spectroelectrochemical measurements. CV experiments have shown that 1 and 3 are easier to oxidize than 2, whereas 1 also has an additional reduction peak, giving it a smaller HOMO-LUMO gap than the other two monomers. All three polymers of 1-3 have nearly the same oxidation and reduction potentials as well as band gaps; small variations can be attributed to the differences in the side groups. Spectroelectrochemical measurements revealed that the polymers showed electrochromic behavior; switching times and colorimetry 0 measurements are reported. From this data, all three polymers have a color change of red to yellow with poly(3) having the best color contrast and percentage change in absorbance from various switching times.
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e-pub ahead of print date: 16 March 2009
Published date: 14 April 2009
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow
Identifiers
Local EPrints ID: 346358
URI: http://eprints.soton.ac.uk/id/eprint/346358
PURE UUID: 5deb62f0-5c56-4504-a822-e5686ce3b99d
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Date deposited: 18 Dec 2012 14:43
Last modified: 15 Mar 2024 03:01
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Author:
John C. Forgie
Author:
Alexander L. Kanibolotsky
Author:
Peter J. Skabara
Author:
Ross W. Harrington
Author:
William Clegg
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