Christoph Rameshan

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  1. In situ XPS studies of MoS2-based CO2hydrogenation catalysts

    Pacholik, G., Enzlberger, L., Benzer, A., Rameshan, R., Latschka, M., Rameshan, C. & Föttinger, K., 2 Jun 2021, In: Journal of Physics D: Applied Physics. 54.2021, 32, 10 p., 324002.

    Research output: Contribution to journalArticleResearchpeer-review

  2. Published

    In situ XPS study of methanol reforming on PdGa near-surface intermetallic phases

    Rameshan, C., Stadlmayr, W., Penner, S., Lorenz, H., Mayr, L., Hävecker, M., Blume, R., Rocha, T., Teschner, D., Knop-Gericke, A., Schlögl, R., Zemlyanov, D., Memmel, N. & Klötzer, B., Jun 2012, In: Journal of catalysis. 290, p. 126-137 12 p.

    Research output: Contribution to journalArticleResearchpeer-review

  3. Interplay between CO Disproportionation and Oxidation: On the Origin of the CO Reaction Onset on Atomic Layer Deposition-Grown Pt/ZrO2 Model Catalysts

    Pramhaas, V., Roiaz, M., Bosio, N., Corva, M., Rameshan, C., Vesselli, E., Grönbeck, H. & Rupprechter, G., 1 Jan 2021, In: ACS Catalysis. 11.2021, 1, p. 208-214 7 p.

    Research output: Contribution to journalArticleResearchpeer-review

  4. Published

    Investigating CO2 activation with perovskite oxides by combining NAP-XPS and impedance spectroscopy

    Melcher, C., Schrenk, F., Nenning, A., Ruh, T., Opitz, A. K. & Rameshan, C., 12 Feb 2023.

    Research output: Contribution to conferencePosterResearch

  5. Published

    Investigating the exciting world of high-temperature dry reforming of methane with in-situ spectroscopy

    Schrenk, F., Lindenthal, L., Rameshan, R., Drexler, H., Berger, T., Rollenitz, J. & Rameshan, C., 1 Sept 2024, Book of Abstracts - 16th Pannonian International Symposium on Catalysis.

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

  6. Published

    Laute Zeiten oder Früher war es leiser

    Bartl, P., Rameshan, C. & Bartl, K., 5 Sept 2023, In: PrimEl : PrimarElementar. 2023, 1, p. 58 - 62 5 p.

    Research output: Contribution to journalArticleResearch

  7. Ligand and support effects on the reactivity and stability of Au38(SR)24 catalysts in oxidation reactions

    Zhang, B., García, C., Sels, A., Salassa, G., Rameshan, C., Llorca, J., Hradil, K., Rupprechter, G., Barrabés, N. & Bürgi, T., Oct 2019, In: Catalysis communications. 130.2019, October, 7 p., 105768.

    Research output: Contribution to journalArticleResearchpeer-review

  8. Ligand Migration from Cluster to Support: A Crucial Factor for Catalysis by Thiolate-protected Gold Clusters

    Zhang, B., Sels, A., Salassa, G., Pollitt, S., Truttmann, V., Rameshan, C., Llorca, J., Olszewski, W., Rupprechter, G., Bürgi, T. & Barrabés, N., 7 Dec 2018, In: ChemCatChem. 10.2018, 23, p. 5341 1 p.

    Research output: Contribution to journalComment/debatepeer-review

  9. Ligand Migration from Cluster to Support: A Crucial Factor for Catalysis by Thiolate-protected Gold Clusters

    Zhang, B., Sels, A., Salassa, G., Pollitt, S., Truttmann, V., Rameshan, C., Llorca, J., Olszewski, W., Rupprechter, G., Bürgi, T. & Barrabés, N., 7 Dec 2018, In: ChemCatChem. 10.2018, 23, p. 5372-5376 5 p.

    Research output: Contribution to journalArticleResearchpeer-review

  10. Published

    Mn-promoted MoS2 catalysts for CO2 hydrogenation: enhanced methanol selectivity due to MoS2/MnOx interfaces

    Alves, G. A. S., Pacholik, G., Pollitt, S., Wagner, T., Rameshan, R., Rameshan, C. & Föttinger, K., 2 Feb 2024, In: Catalysis science & technology. 14.2024, 5, p. 1138-1147 10 p.

    Research output: Contribution to journalArticleResearchpeer-review

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