Bio-inspired CO2 reduction by a rhenium tricarbonyl bipyridine-based catalyst appended to amino acids and peptidic platforms: incorporating proton relays and hydrogen-bonding functional groups
Chabolla, S A, Machan, C W, Yin, J, Dellamary, E A, Sahu, S, Gianneschi, N C, Gilson, M K, Tezcan, F A, Kubiak, C P
Published in Faraday discussions (02.06.2017)
Published in Faraday discussions (02.06.2017)
Get full text
Journal Article
Bio-inspired CO 2 reduction by a rhenium tricarbonyl bipyridine-based catalyst appended to amino acids and peptidic platforms: incorporating proton relays and hydrogen-bonding functional groups
Chabolla, S A, Machan, C W, Yin, J, Dellamary, E A, Sahu, S, Gianneschi, N C, Gilson, M K, Tezcan, F A, Kubiak, C P
Published in Faraday discussions (02.06.2017)
Published in Faraday discussions (02.06.2017)
Get full text
Journal Article
Bio-inspired CO2 reduction by a rhenium tricarbonyl bipyridine-based catalyst appended to amino acids and peptidic platforms: incorporating proton relays and hydrogen-bonding functional groupsElectronic supplementary information (ESI) available: Additional information regarding species synthesized herein, including electrochemical responses, IR-SEC, and crystallographic data. CCDC 1525657. For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/c7fd00003k
Chabolla, S. A, Machan, C. W, Yin, J, Dellamary, E. A, Sahu, S, Gianneschi, N. C, Gilson, M. K, Tezcan, F. A, Kubiak, C. P
Year of Publication 02.06.2017
Year of Publication 02.06.2017
Get full text
Journal Article