Selectivity control towards CO versus H2 for photo-driven CO2 reduction with a novel Co(II) catalyst

Abstract Developing efficient catalysts for reducing carbon dioxide, a highly stable combustion waste product, is a relevant task to lower the atmospheric concentration of this greenhouse gas by upcycling. Selectivity towards CO2-reduction products is highly desirable, although it can be challenging to achieve since the metal-hydrides formation is sometimes favored and leads to H2 evolution. In this work, we designed a cobalt-based catalyst, and we present herein its physicochemical properties. Moreover, we tailored a fully earth-abundant photocatalytic system to achieve specifically CO2 reduction, optimizing efficiency and selectivity. By changing the conditions, we enhanced the turnover number (TON) of CO production from only 0.5 to more than 60 and the selectivity from 6% to 97% after four hours of irradiation at 420 nm. Further efficiency enhancement was achieved by adding 1,1,1,3,3,3-hexafluoropropan-2-ol, producing CO with a TON up to 230, although at the expense of selectivity (54%). Beilstein J. Org. Chem. 2023, 19, 1766–1775. doi:10.3762/bjoc.19.129
Source: Beilstein Journal of Organic Chemistry - Category: Chemistry Authors: Tags: carbon monoxide selectivity cobalt(II) complex copper(I) complex earth-abundant hexafluoropropanol photocatalytic CO2 reduction Full Research Paper Source Type: research