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Solar-Driven Electrochemical CO(2)Reduction with Heterogeneous Catalysts (2021)
Journal Article
Creissen, C. E., & Fontecave, M. (2021). Solar-Driven Electrochemical CO(2)Reduction with Heterogeneous Catalysts. Laser physics review, 11(43), Article ARTN 2002652. https://doi.org/10.1002/aenm.202002652

The simultaneous mitigation of CO2 emissions and direct generation of value-added chemicals has motivated research in solar-driven electrochemical CO2 reduction. Here, devices incorporating heterogeneous catalysts that operate under bias-free aqueous... Read More about Solar-Driven Electrochemical CO(2)Reduction with Heterogeneous Catalysts.

Advancing the Anode Compartment for Energy Efficient CO2 Reduction at Neutral pH (2021)
Journal Article
Peugeot, A., Creissen, C. E., Schreiber, M. W., & Fontecave, M. (2021). Advancing the Anode Compartment for Energy Efficient CO2 Reduction at Neutral pH. ChemElectroChem, 8(14), 2726-2736. https://doi.org/10.1002/celc.202100742

Energy efficient CO2 reduction in neutral pH requires the development of electrochemical devices operating with minimal energy input. To reach this objective, we propose an original approach focused on the anode compartment where the oxygen evolution... Read More about Advancing the Anode Compartment for Energy Efficient CO2 Reduction at Neutral pH.

Benchmarking of oxygen evolution catalysts on porous nickel supports (2021)
Journal Article
Peugeot, A., Creissen, C. E., Karapinar, D., Huan Ngoc Tran, H., Schreiber, M., & Fontecave, M. (2021). Benchmarking of oxygen evolution catalysts on porous nickel supports. Joule, 5(5), 1281-1300. https://doi.org/10.1016/j.joule.2021.03.022

Active and inexpensive oxygen evolution reaction (OER) electrocatalysts are needed for energy-efficient electrolysis applications. Objective comparison between OER catalysts has been blurred by the use of different supports and methods to evaluate pe... Read More about Benchmarking of oxygen evolution catalysts on porous nickel supports.

Electrochemical CO2 Reduction to Ethanol with Copper-Based Catalysts (2021)
Journal Article
Karapinar, D., Creissen, C. E., Rivera de la Cruz, J. G., Schreiber, M. W., & Fontecave, M. (2021). Electrochemical CO2 Reduction to Ethanol with Copper-Based Catalysts. ACS Energy Letters, 6(2), 694-706. https://doi.org/10.1021/acsenergylett.0c02610

Electrochemical CO2 reduction presents a sustainable route to storage of intermittent renewable energy. Ethanol is an important target product, which is used as a fuel additive and as a chemical feedstock. However, electrochemical ethanol production... Read More about Electrochemical CO2 Reduction to Ethanol with Copper-Based Catalysts.