Charged Macromolecular Rhenium Bipyridine Catalysts with Tunable CO2 Reduction Potentials
Abstract
A series of polymeric frameworks with functional assemblies were designed to alter the catalytic activity of covalently bound ReI electrocatalysts. Norbornenyl polymers containing positively charged quaternary ammonium salts, neutral phenyl, or negatively charged trifluoroborate groups were end‐labelled with a ReI fac‐tricarbonyl bipyridine electrocatalyst via cross metathesis. Electrochemical studies in acetonitrile under an inert atmosphere and with saturated CO2 indicate that the quaternary ammonium polymers exhibit a significantly lower potential for CO2 reduction to CO (ca. 300 mV), while neutral polymers behave consistently with what has been reported for the free, molecular catalyst. In contrast, the trifluoroborate polymers displayed a negative shift in potential and catalytic activity was not observed. It is demonstrated that a single catalytically active complex can be installed onto a charged polymeric framework, thereby achieving environmentally tuned reduction potentials for CO2 reduction. These materials may be useful as polymer‐based precursors for preparing catalytic and highly ordered structures such as thin films, porous catalytic membranes, or catalytic nanoparticles.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Jun 05, 2017
- Source ID
- 10.1002/chem.201701901
Entities
People
- Charles W. Machan
- Clifford Kubiak
- Nathan C. Gianneschi
- Po Ling Cheung
- Steven A. Chabolla
- Swagat Sahu
Organizations
- Air Force Office of Scientific Research
- University of California, San Diego