A series of cobalt bis(thiosemicarbazone) catalysts for effective photocatalytic hydrogen evolution reaction
Michael Papadakis, Georgios Landrou, Marie Poisson, Léa Delmotte, Katerina Achileos, Sylvain Bertaina, Renaud Hardré, Kalliopi Ladomenou, Athanassios G. Coutsolelos, Maylis Orio- Inorganic Chemistry
In order to diminish environmental issues such as global warming due to increased carbo dioxide (CO2) emissions, considerable efforts have been made in the research community. Photocatalytic hydrogen (H2) production is a very important way towards this goal, since sunlight is an abundant source of energy and H2 is a clean fuel, producing no greenhouse gases. Inexpensive, stable and non‐toxic carbon dots were easily synthesized and used as photosensitizers in water in the presence of a series of molecular cobalt catalysts (CoTSC). The catalysts were thiosemicarbazone‐based complexes able to transfer electrons for hydrogen evolution reaction. Under visible light irradiation, the nitrogen‐doped carbon dots (NCdots) transfer the photoexcited electrons to the catalyst, producing an activity of 358 μmol gNCdot‐1h‐1 (TONCo=570) for CoTSC‐N(CH3)2CN after 24h of irradiation. These types of molecular catalysts display great activity and stability in combination with the easily synthesized and modified carbon dot materials.