Rafaël Vos
PhD candidate
- Name
- R.E. Vos
- Telephone
- 071 5274452
- r.e.vos@lic.leidenuniv.nl
- ORCID iD
- 0000-0003-1810-1179
PhD candidate
- Science
- Leiden Institute of Chemistry
- LIC/Energy & Sustainability
- LIC/ES/Catalysis and Surface Chemistry
PhD candidate/guest
- Science
- Leiden Institute of Chemistry
- LIC/Energy & Sustainability
- LIC/ES/Catalysis and Surface Chemistry
- Vos R.E. & Koper M.T.M. (2024), Nickel as electrocatalyst for CO(2)reduction: effect of temperature, potential, partial pressure, and electrolyte composition, ACS Catalysis 14(7): 4432–4440.
- Vos R.E., Smaak J.P. & Koper M.T.M. (2024), The temperature dependence of electrochemical CO2 reduction on Ag and CuAg alloys, Journal of Catalysis 436: 115613.
- Marques da Silva A.H.M., Vos R.E., Schrama R.J.C. & Koper M.T.M. (2024), Design of a rotating disk electrode setup operating under high pressure and temperature: application to CO2 reduction on gold, Electrochimica Acta 489: 144612.
- Heijden O. van der, Park S., Vos R.E., Eggebeen J.J.J. & Koper M.T.M. (2024), Tafel slope plot as a tool to analyze electrocatalytic reactions, ACS Energy Letters 9(4): 1871-1879.
- Vos R.E., Kolmeijer K.E., Jacobs T.S., Stam W. van der, Weckhuysen B.M. & Koper M.T.M. (2023), How temperature affects the selectivity of the electrochemical CO2 reduction on copper, ACS Catalysis 13(12): 8080-8091.
- Marques da Silva A.H., Karaiskakis G., Vos R.E. & Koper M.T.M. (2023), Mechanistic Insights into the formation of hydroxyacetone, acetone, and 1,2-Propanediol from electrochemical CO2 reduction on copper, Journal of the American Chemical Society 145(28): 15343-15352.
- Vos R.E. & Koper M.T.M. (2022), The effect of temperature on the cation‐promoted electrochemical CO2 reduction on gold, ChemElectroChem 9(13): e202200239.
- Stephens I.E.L., Chan K., Bagger A., Boettcher S.,W., Bonin J., Boutin E., Buckley A.K., Buonsanti R., Cave E.R., Chang X., Chee S.W., Marques da Silva A.H., Luna P. de, Einsle O., Endrodi B., Escudero-Escribano M., Ferreira A.J.V. de, Figueiredo M.C., Hahn C., Hansen K.U., Huassener S., Hunegnaw S., Huo Z., Hwang Y.J., Janaky C., Jayathilake B.S., Jiao F., Jovanov Z.P., Karimi P., Koper M.T.M., Kuhl K.P., Woong H., Liang Z., Liu X., Ma S., Ma M., Oh H.S., Robert M., Cuenva B.R., Rossmeisl J., Roy C., Ryan M.P., Sargent E.H., Sebastián-Pascual P., Seger B., Steier L., Strasser P., Varela A.S., Vos R.E., Wang X., Xu B., Yadegari H. & Zhou X. (2022), 2022 roadmap on low temperature electrochemical CO2 reduction, Journal of Physics: Energy 4(4): 042003.
- Shih A.J., Cecílio de Oliveira Monteiro M., Dattila F., Pavesi D., Philips M., Marques da Silva A.H.., Vos R.E., Ojha K., Park S., Van der Heijden O., Marcandalli G., Goyal A., Villalba M.A., Chen X., Kasun Kalhara Gunasooriya G.T., McCrum I., Mom R.V., López N. & Koper M.T.M. (2022), Water electrolysis, Nature Reviews Methods Primers 2: 84.