Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials
Novel conductive polymer-based metal complexes were electrochemically synthesized and characterized in relation to (spectro)electrochemical stimuli. Particularly, we focused our attention on terthiophenes functionalized with terpyridine groups, along with Fe2+ cations present during electrochemical...
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sg-ntu-dr.10356-1547282022-01-05T07:09:15Z Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials Wagner, Michal Wagner, Klaudia Barnsley, Jonathan E. Veksha, Andrei Wagner, Paweł Gordon, Keith C. Bobacka, Johan Wallace, Gordon G. Ivaska, Ari Officer, David L. Lisak, Grzegorz School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Science::Chemistry Charge-Transfer Complex Electrochemistry Novel conductive polymer-based metal complexes were electrochemically synthesized and characterized in relation to (spectro)electrochemical stimuli. Particularly, we focused our attention on terthiophenes functionalized with terpyridine groups, along with Fe2+ cations present during electrochemical synthesis. The resultant electroactive films are coherent, robust, and exhibit mixed absorption profiles upon electrochemical doping, characteristic for both polyterthiophenes and metal-ligand transitions. At certain oxidation potentials, the formation of radical cation and also dication states were observed. The latter, influence the optical transitions related to metal centers, and can reversibly be everted by switching to lower potentials. Furthermore, the polymer “cross-linking metal” can be removed from the structure, which we obtained by partial exchange of Fe2+ with Cu2+ and Zn2+ cations. The conducted cation exchange studies however elucidate the complexity and difficulty of such an approach. With future electropolymerization “strategies” we are expecting to extend film stability during application of relatively high potentials, as well as in the interim of cation exchange. 2022-01-05T07:09:15Z 2022-01-05T07:09:15Z 2020 Journal Article Wagner, M., Wagner, K., Barnsley, J. E., Veksha, A., Wagner, P., Gordon, K. C., Bobacka, J., Wallace, G. G., Ivaska, A., Officer, D. L. & Lisak, G. (2020). Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials. ChemElectroChem, 7(21), 4453-4459. https://dx.doi.org/10.1002/celc.202001142 2196-0216 https://hdl.handle.net/10356/154728 10.1002/celc.202001142 2-s2.0-85095932885 21 7 4453 4459 en ChemElectroChem © 2020 Wiley-VCH GmbH. All rights reserved. |
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Science::Chemistry Charge-Transfer Complex Electrochemistry Wagner, Michal Wagner, Klaudia Barnsley, Jonathan E. Veksha, Andrei Wagner, Paweł Gordon, Keith C. Bobacka, Johan Wallace, Gordon G. Ivaska, Ari Officer, David L. Lisak, Grzegorz Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials |
| description |
Novel conductive polymer-based metal complexes were electrochemically synthesized and characterized in relation to (spectro)electrochemical stimuli. Particularly, we focused our attention on terthiophenes functionalized with terpyridine groups, along with Fe2+ cations present during electrochemical synthesis. The resultant electroactive films are coherent, robust, and exhibit mixed absorption profiles upon electrochemical doping, characteristic for both polyterthiophenes and metal-ligand transitions. At certain oxidation potentials, the formation of radical cation and also dication states were observed. The latter, influence the optical transitions related to metal centers, and can reversibly be everted by switching to lower potentials. Furthermore, the polymer “cross-linking metal” can be removed from the structure, which we obtained by partial exchange of Fe2+ with Cu2+ and Zn2+ cations. The conducted cation exchange studies however elucidate the complexity and difficulty of such an approach. With future electropolymerization “strategies” we are expecting to extend film stability during application of relatively high potentials, as well as in the interim of cation exchange. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Wagner, Michal Wagner, Klaudia Barnsley, Jonathan E. Veksha, Andrei Wagner, Paweł Gordon, Keith C. Bobacka, Johan Wallace, Gordon G. Ivaska, Ari Officer, David L. Lisak, Grzegorz |
| format |
Article |
| author |
Wagner, Michal Wagner, Klaudia Barnsley, Jonathan E. Veksha, Andrei Wagner, Paweł Gordon, Keith C. Bobacka, Johan Wallace, Gordon G. Ivaska, Ari Officer, David L. Lisak, Grzegorz |
| author_sort |
Wagner, Michal |
| title |
Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials |
| title_short |
Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials |
| title_full |
Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials |
| title_fullStr |
Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials |
| title_full_unstemmed |
Polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials |
| title_sort |
polyterthiophenes cross-linked with terpyridyl metal complexes for molecular architecture of optically and electrochemically tunable materials |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/154728 |
| _version_ |
1722355375245623296 |