Photochemical and Photoelectrochemical Reduction of CO 2
University of California San Diego · Division of Materials Science and Engineering
Abstract
The recent literature on photochemical and photoelectrochemical reductions of CO(2) is reviewed. The different methods of achieving light absorption, electron-hole separation, and electrochemical reduction of CO(2) are considered. Energy gap matching for reduction of CO(2) to different products, including CO, formic acid, and methanol, is used to identify the most promising systems. Different approaches to lowering overpotentials and achieving high chemical selectivities by employing catalysts are described and compared.
Citation impact
- FWCI
- 29.56
- Percentile
- 100%
- References
- 159
Authors
6- BKBhupendra KumarCorresponding
University of California San Diego, Division of Materials Science and Engineering
- MLMark Llorente
Division of Materials Science and Engineering
- JDJesse D. Froehlich
University of California San Diego
- TDTram Dang
Division of Materials Science and Engineering
- AJAaron J. Sathrum
Division of Materials Science and Engineering
Topics & keywords
- Formic acid
- Methanol
- Photochemistry
- Reduction (mathematics)
- Electrochemistry
- Absorption (acoustics)
- Catalysis
- Materials science
- Affordable and clean energy