Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black
Molecular catalysts represent an excellent class of materials for carbon dioxide reduction that can perform with superior selectivity and allow for the molecular-level tuning of their structure-performance relationship. In this study, three quinquepyridine-based cobalt complexes were synthesized wit...
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sg-ntu-dr.10356-1594612022-06-24T02:20:43Z Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black Reddu, Vikas Sun, Libo Duo, Shuo Chen, Xinqi Wu, Tian Dai, Wei Wang, Xin School of Chemical and Biomedical Engineering Cambridge CARES Engineering::Chemical engineering Carbon Dioxide Reduction Cobalt Complexes Molecular catalysts represent an excellent class of materials for carbon dioxide reduction that can perform with superior selectivity and allow for the molecular-level tuning of their structure-performance relationship. In this study, three quinquepyridine-based cobalt complexes were synthesized with different types of functional group (-N(CH3)2, -NO2, -H) substitutions allowing us to manipulate the electronic field around the metal center due to their varying electron donating and withdrawing tendencies. These were heterogenized onto carbon black enabling them to perform in near neutral aqueous conditions (pH = 6.8). At an optimized catalyst loading of ~100 μg cm−2, dimethylamine- and nitro-substituted complexes outperformed the unsubstituted complex, wherein, dimethylamine substituted complex attained nearly 100% faradaic efficiency towards CO formation at a low overpotential (η) of 0.59 V (-0.7 V vs. RHE) and achieved a current density (j) of ~4.3 mA cm−2. It maintained its robust performance towards the formation of CO over a wide range of overpotential while suppressing the competitive hydrogen evolution reaction. This enhanced activity compared to the unsubstituted complex was attributed to the effects exerted by the functional groups at the molecular level. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) National Research Foundation (NRF) This work was supported by the National Research Foundation (NRF), Prime Minister’s Office, Singapore, under its Campus for Research Excellence and Technological Enterprise (CREATE) program. The authors also acknowledge financial support from the academic research fund AcRF tier 1 (M4012076RG118/18), Ministry of Education, Singapore, and AME Individual Research Grant (Grant A1983c0026), Agency for Science, Technology, and Research (A∗STAR). 2022-06-24T02:20:43Z 2022-06-24T02:20:43Z 2021 Journal Article Reddu, V., Sun, L., Duo, S., Chen, X., Wu, T., Dai, W. & Wang, X. (2021). Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black. Electrochimica Acta, 380, 138224-. https://dx.doi.org/10.1016/j.electacta.2021.138224 0013-4686 https://hdl.handle.net/10356/159461 10.1016/j.electacta.2021.138224 2-s2.0-85103692154 380 138224 en M4012076RG118/18 A1983c0026 Electrochimica Acta © 2021 Elsevier Ltd. All rights reserved. |
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Engineering::Chemical engineering Carbon Dioxide Reduction Cobalt Complexes Reddu, Vikas Sun, Libo Duo, Shuo Chen, Xinqi Wu, Tian Dai, Wei Wang, Xin Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black |
| description |
Molecular catalysts represent an excellent class of materials for carbon dioxide reduction that can perform with superior selectivity and allow for the molecular-level tuning of their structure-performance relationship. In this study, three quinquepyridine-based cobalt complexes were synthesized with different types of functional group (-N(CH3)2, -NO2, -H) substitutions allowing us to manipulate the electronic field around the metal center due to their varying electron donating and withdrawing tendencies. These were heterogenized onto carbon black enabling them to perform in near neutral aqueous conditions (pH = 6.8). At an optimized catalyst loading of ~100 μg cm−2, dimethylamine- and nitro-substituted complexes outperformed the unsubstituted complex, wherein, dimethylamine substituted complex attained nearly 100% faradaic efficiency towards CO formation at a low overpotential (η) of 0.59 V (-0.7 V vs. RHE) and achieved a current density (j) of ~4.3 mA cm−2. It maintained its robust performance towards the formation of CO over a wide range of overpotential while suppressing the competitive hydrogen evolution reaction. This enhanced activity compared to the unsubstituted complex was attributed to the effects exerted by the functional groups at the molecular level. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Reddu, Vikas Sun, Libo Duo, Shuo Chen, Xinqi Wu, Tian Dai, Wei Wang, Xin |
| format |
Article |
| author |
Reddu, Vikas Sun, Libo Duo, Shuo Chen, Xinqi Wu, Tian Dai, Wei Wang, Xin |
| author_sort |
Reddu, Vikas |
| title |
Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black |
| title_short |
Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black |
| title_full |
Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black |
| title_fullStr |
Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black |
| title_full_unstemmed |
Heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black |
| title_sort |
heterogeneous carbon dioxide reduction reaction by cobalt complexes of 4′,4′′′-disubstituted derivatives of quinquepyridine immobilized on carbon black |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159461 |
| _version_ |
1736856371137085440 |