Meeting the Industrial Challenges of CO2 Photocatalytic Reduction: Moving From Molybdenum Disulfides to Oxysulfides Based Materials?

Reducing CO2 emissions is one of the greatest challenges of the century. Among the means employed to tackle CO2 emissions, the photocatalytic conversion of CO2 is an appealing way to valorize CO2 since it uses the sun energy, which is abundant. However, nowadays, the best photocatalytic systems still report too low efficiencies, and use expensive materials, so they cannot be readily industrialized for use at large scale. In this report, we first highlight general industrial and process challenges (including operating conditions). Then, focusing on MoS2/TiO2 heterojunction systems, we analyze advantages and limitations of such systems and open perspectives on Mo oxysulfides supported on TiO2 discussing their potential to reach higher efficiency for CO2 photoconversion.Reducing CO2 emissions is one of the greatest challenges of the century. Among the means employed to tackle CO2 emissions, the photocatalytic conversion of CO2 is an appealing way to valorize CO2 since it uses the sun energy, which is abundant. However, nowadays, the best photocatalytic systems still report too low efficiencies, and use expensive materials, so they cannot be readily industrialized for use at large scale. In this report, we first highlight general industrial and process challenges (including operating conditions). Then, focusing on MoS2/TiO2 heterojunction systems, we analyze advantages and limitations of such systems and open perspectives on Mo oxysulfides supported on TiO2 discussing their potential to reach higher efficiency for CO2 photoconversion.