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Results: 87
Number of items: 87
  • Open Access
    Schuler, E., Ermolich, P. A., Shiju, N. R., & Gruter, G.-JM. (2021). Monomers from CO2: Superbases as Catalysts for Formate-to-Oxalate Coupling. ChemSusChem, 14(6), 1517-1523. https://doi.org/10.1002/cssc.202002725
  • Open Access
    Slot, T. K. (2021). Understanding confinement effects and nano structuring in heterogeneous catalysis. [Thesis, fully internal, Universiteit van Amsterdam].
  • Open Access
    Ronda-Lloret, M., Yang, L., Hammerton, M., Marakatti, V. S., Tromp, M., Sofer, Z., Sepulveda-Escribano, A., Ramos-Fernandez, E. V., Jose Delgado, J., Rothenberg, G., Reina, T. R., & Shiju, N. R. (2021). Molybdenum Oxide Supported on Ti3AlC2 is an Active Reverse Water-Gas Shift Catalyst. ACS Sustainable Chemistry & Engineering, 9(14), 4957-4966. https://doi.org/10.1021/acssuschemeng.0c07881
  • Open Access
    Slot, T. K., Yue, F., Xu, H., Ramos-Fernandez, E. V., SepĂșlveda-Escribano, A., Sofer, Z., Rothenberg, G., & Raveendran Shiju, N. (2021). Surface oxidation of Ti3C2Tx enhances the catalytic activity of supported platinum nanoparticles in ammonia borane hydrolysis. 2D Materials, 8(1), Article 015001. https://doi.org/10.1088/2053-1583/ababef
  • Open Access
    Slot, T. K., Oulego, P., Sofer, Z., Bai, Y., Rothenberg, G., & Raveendran Shiju, N. (2021). Ruthenium on Alkali-Exfoliated Ti3(Al0.8Sn0.2)C2 MAX Phase Catalyses Reduction of 4-Nitroaniline with Ammonia Borane. ChemCatChem, 13(15), 3470-3478. https://doi.org/10.1002/cctc.202100158
  • Open Access
    Schuler, E., Stoop, M., Shiju, N. R., & Gruter, G.-JM. (2021). Stepping Stones in CO2 Utilization: Optimizing the Formate to Oxalate Coupling Reaction Using Response Surface Modeling. ACS Sustainable Chemistry & Engineering, 9(44), 14777-14788. https://doi.org/10.1021/acssuschemeng.1c04539
  • Open Access
    Slot, T. K., Natu, V., Ramos-Fernandez, E. V., SepĂșlveda-Escribano, A., Barsoum, M., Rothenberg, G., & Shiju, N. R. (2021). Enhancing catalytic epoxide ring-opening selectivity using surface-modified Ti3C2Tx MXenes. 2D Materials, 8(3), Article 035003. https://doi.org/10.1088/2053-1583/abe951
  • Open Access
    Guo, J., Zhang, W., Zhang, L.-H., Chen, D., Zhan, J., Wang, X., Shiju, N. R., & Yu, F. (2021). Control over Electrochemical CO2 Reduction Selectivity by Coordination Engineering of Tin Single-Atom Catalysts. Advanced Science, 8(23), Article 2102884. https://doi.org/10.1002/advs.202102884
  • Open Access
    Devid, E. J., Ronda-Lloret, M., Zhang, D., Schuler, E., Wang, D., Liang, C.-H., Huang, Q., Rothenberg, G., Shiju, N. R., & Kleyn, A. W. (2021). Enhancing CO2 plasma conversion using metal grid catalysts. Journal of Applied Physics, 129(5), Article 053306. https://doi.org/10.1063/5.0033212
  • Open Access
    Ronda Lloret, M. (2021). What to do with CO2? Towards valuable chemicals using plasma and catalysis. [Thesis, fully internal, Universiteit van Amsterdam].
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