CO₂reduction: the quest for electrocatalytic materials

Abstract: Electrochemical conversion of CO2has attracted attention worldwide since this process can convert carbon dioxide to a wide range of value-added chemicals. This reaction required the development of efficient electrocatalysts and fundamental understanding of the reaction kinetics and thermodynamics to overcome the current challenges.

“…Interestingly, in addition to the production CO, H 2 O was obtained as the by-product and no H 2 , instead of reductive disproportionation of CO to CO/CO 3 2− under aprotic conditions. [55][56][57] The anodic degradation of the acetonitrile electrolyte was suggested to be the proton mediator responsible for water production; through computational methods, the terminal proton source that enables the CO bond cleavage, was identified to be the reductive transformation of cyclopentadione to hydroxycyclopentadienyl.…”

“…[32,92,[105][106][107] Work by Sampson et al pushed the boundaries of manganese bipyridine aided electro-reduction; the team synthesized, for the first time in reported literature, Mn(mesbpy)-(CO) 3 Br and [Mn(mesbpy)(CO) 3 (MeCN)]-(OTf) molecular catalysts (Figure 40) (mesbpy = Br6,6′-dimesityl-2,2′-bipyridine). [32,92,[105][106][107] Work by Sampson et al pushed the boundaries of manganese bipyridine aided electro-reduction; the team synthesized, for the first time in reported literature, Mn(mesbpy)-(CO) 3 Br and [Mn(mesbpy)(CO) 3 (MeCN)]-(OTf) molecular catalysts (Figure 40) (mesbpy = Br6,6′-dimesityl-2,2′-bipyridine).…”

“…This strategy showed a significant effect on the catalytic performance, substantially improving the TOF max and selectivity for CO production. A notable by Liyanage et al in 2016 with functionalized Re(bpy)(CO) 3 Br molecules, a typical Rhenium pyridine molecule used for CO 2 reduction. Energy Mater.…”

“…[3][4][5][6][7] The recoverable energy density of the chemicals that can be converted from CO 2 is substantially higher than most battery technologies.Given CO 2 electroreduction's immense economic and environmental potential, it has been the subject of much research activity over the past decades. Thanks to the electrochemical nature of the CO 2 conversion to fuels and chemicals, the electrical energy invested to convert CO 2 in the form of a chemical fuel can be stored and redistributed using established supply chains for future use.…”

“…Schematic of the molecular structures of 1) Mn(mesbpy)(CO)3 Br and 2) [Mn(mesbpy)(CO)3 (MeCN)](OTf). Adapted with permission [108,109].…”

Recent Trends, Benchmarking, and Challenges of Electrochemical Reduction of CO₂ by Molecular Catalysts

“…Interestingly, in addition to the production CO, H 2 O was obtained as the by-product and no H 2 , instead of reductive disproportionation of CO to CO/CO 3 2− under aprotic conditions. [55][56][57] The anodic degradation of the acetonitrile electrolyte was suggested to be the proton mediator responsible for water production; through computational methods, the terminal proton source that enables the CO bond cleavage, was identified to be the reductive transformation of cyclopentadione to hydroxycyclopentadienyl.…”

“…[32,92,[105][106][107] Work by Sampson et al pushed the boundaries of manganese bipyridine aided electro-reduction; the team synthesized, for the first time in reported literature, Mn(mesbpy)-(CO) 3 Br and [Mn(mesbpy)(CO) 3 (MeCN)]-(OTf) molecular catalysts (Figure 40) (mesbpy = Br6,6′-dimesityl-2,2′-bipyridine). [32,92,[105][106][107] Work by Sampson et al pushed the boundaries of manganese bipyridine aided electro-reduction; the team synthesized, for the first time in reported literature, Mn(mesbpy)-(CO) 3 Br and [Mn(mesbpy)(CO) 3 (MeCN)]-(OTf) molecular catalysts (Figure 40) (mesbpy = Br6,6′-dimesityl-2,2′-bipyridine).…”

“…This strategy showed a significant effect on the catalytic performance, substantially improving the TOF max and selectivity for CO production. A notable by Liyanage et al in 2016 with functionalized Re(bpy)(CO) 3 Br molecules, a typical Rhenium pyridine molecule used for CO 2 reduction. Energy Mater.…”

“…[3][4][5][6][7] The recoverable energy density of the chemicals that can be converted from CO 2 is substantially higher than most battery technologies.Given CO 2 electroreduction's immense economic and environmental potential, it has been the subject of much research activity over the past decades. Thanks to the electrochemical nature of the CO 2 conversion to fuels and chemicals, the electrical energy invested to convert CO 2 in the form of a chemical fuel can be stored and redistributed using established supply chains for future use.…”

“…Schematic of the molecular structures of 1) Mn(mesbpy)(CO)3 Br and 2) [Mn(mesbpy)(CO)3 (MeCN)](OTf). Adapted with permission [108,109].…”

Recent Trends, Benchmarking, and Challenges of Electrochemical Reduction of CO₂ by Molecular Catalysts

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