Outputs (5)

Molecular Inhibition for Selective CO2 Conversion. (2022)
Journal Article
Creissen, C., Rivera de la Cruz, J., Karapinar, D., Taverna, D., Schreiber, M., & Fontecave, M. (2022). Molecular Inhibition for Selective CO2 Conversion. Angewandte Chemie International Edition, e202206279 - ?. https://doi.org/10.1002/anie.202206279

Electrochemical CO2 reduction presents a sustainable route to the production of chemicals and fuels. Achieving a narrow product distribution with heterogeneous Cu catalysts is challenging and conventional material modifications offer limited control... Read More about Molecular Inhibition for Selective CO2 Conversion..

Molecular Inhibition for Selective CO 2 Conversion (2022)
Journal Article
Creissen, C. E., Rivera de la Cruz, J. G., Karapinar, D., Taverna, D., Schreiber, M. W., & Fontecave, M. (2022). Molecular Inhibition for Selective CO 2 Conversion. Angewandte Chemie, 134(32), https://doi.org/10.1002/ange.202206279

Electrochemical CO2 reduction presents a sustainable route to the production of chemicals and fuels. Achieving a narrow product distribution with heterogeneous Cu catalysts is challenging and conventional material modifications offer limited control... Read More about Molecular Inhibition for Selective CO 2 Conversion.

Keeping sight of copper in single-atom catalysts for electrochemical carbon dioxide reduction (2022)
Journal Article
Creissen, C. E., & Fontecave, M. (2022). Keeping sight of copper in single-atom catalysts for electrochemical carbon dioxide reduction. Nature communications, 13(1), Article ARTN 2280. https://doi.org/10.1038/s41467-022-30027-x

From Nickel Foam to Highly Active NiFe-based Oxygen Evolution Catalysts (2022)
Journal Article
Peugeot, A., Creissen, C. E., Schreiber, M. W., & Fontecave, M. (2022). From Nickel Foam to Highly Active NiFe-based Oxygen Evolution Catalysts. ChemElectroChem, 9(6), Article ARTN e202200148. https://doi.org/10.1002/celc.202200148

A key challenge for the large-scale application of the oxygen evolution reaction (OER) is the synthesis of active, cheap and robust catalysts. Here, a straightforward procedure to form novel porous and highly active multimetallic oxygen evolution cat... Read More about From Nickel Foam to Highly Active NiFe-based Oxygen Evolution Catalysts.

Molecular Inhibition for Selective CO2 Conversion (2022)
Journal Article
Schreiber, M., Fontecave, M., Creissen, C., Guillermo Rivera de la Cruz, J., Karapinar, D., & Taverna, D. (2022). Molecular Inhibition for Selective CO2 Conversion. ChemRxiv, https://doi.org/10.26434/chemrxiv-2022-63b91

Electrochemical CO2 reduction presents a sustainable route to the production of chemicals and fuels. Achieving a narrow product distribution with copper catalysts is challenging and conventional material modifications offer limited control over selec... Read More about Molecular Inhibition for Selective CO2 Conversion.