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Dr N. (Nat) Phongprueksathat

Researcher
Faculty of Science
Van 't Hoff Institute for Molecular Sciences
Area of expertise: CO₂ hydrogenation, heterogeneous catalysis, Fischer-Tropsch synthesis, methanol synthesis, high-pressure reactors, process automation, Bayesian optimization, catalyst development, CO₂ capture and conversion, process control, data science
Photographer: Monique Kooijmans
Visiting address
  • Science Park 904
Postal address
  • Postbus 94157
    1090 GD Amsterdam
Contact details
Social media
  • Publications

    2023

    • Phongprueksathat, N., Ting, K. W., Mine, S., Jing, Y., Toyoshima, R., Kondoh, H., Shimizu, K. I., Toyao, T., & Urakawa, A. (2023). Bifunctionality of Re Supported on TiO2 in Driving Methanol Formation in Low-Temperature CO2 Hydrogenation. ACS Catalysis, 13(16), 10734-10750. https://doi.org/10.1021/acscatal.3c01599
    • Zhou, H., Docherty, S. R., Phongprueksathat, N., Chen, Z., Bukhtiyarov, A. V., Prosvirin, I. P., Safonova, O. V., Urakawa, A., Copéret, C., Müller, C. R., & Fedorov, A. (2023). Combining Atomic Layer Deposition with Surface Organometallic Chemistry to Enhance Atomic-Scale Interactions and Improve the Activity and Selectivity of Cu-Zn/SiO2 Catalysts for the Hydrogenation of CO2 to Methanol. JACS AU, 3(9), 2536-2549. https://doi.org/10.1021/jacsau.3c00319

    2022

    • Phongprueksathat, N., Thanasujaree, T., Meeyoo, V., & Rirksomboon, T. (2022). Spatially resolved investigation into the coke formation and chemical states of nickel during autothermal reforming of acetic acid over Ni/CeO2-ZrO2 catalysts. Reaction Chemistry and Engineering, 7(6), 1335-1345. https://doi.org/10.1039/d1re00561h

    2021

    • Docherty, S. R., Phongprueksathat, N., Lam, E., Noh, G., Safonova, O. V., Urakawa, A., & Copéret, C. (2021). Silica-Supported PdGa Nanoparticles: Metal Synergy for Highly Active and Selective CO2-to-CH3OH Hydrogenation. JACS AU, 1(4), 450-458. https://doi.org/10.1021/jacsau.1c00021
    • Phongprueksathat, N., & Urakawa, A. (2021). Enhancing Sustainability Through Heterogeneous Catalytic Conversions at High Pressure. In Heterogeneous Catalysts: Advanced Design, Characterization and Applications: Volume 1 and 2 (Vol. 1-2, pp. 633-648). Wiley. https://doi.org/10.1002/9783527813599.ch35
    • Phongprueksathat, N., & Urakawa, A. (2021). Heterogeneously Catalyzed CO2 Hydrogenation to Alcohols. In CO2 Hydrogenation Catalysis (pp. 207-236). Wiley. https://doi.org/10.1002/9783527824113.ch8
    • Phongprueksathat, N., Bansode, A., Toyao, T., & Urakawa, A. (2021). Greener and facile synthesis of Cu/ZnO catalysts for CO2hydrogenation to methanol by urea hydrolysis of acetates. RSC Advances, 11(24), 14323-14333. https://doi.org/10.1039/d1ra02103f

    2020

    • Gaikwad, R., Reymond, H., Phongprueksathat, N., Rudolf Von Rohr, P., & Urakawa, A. (2020). From CO or CO2? Space-resolved insights into high-pressure CO2 hydrogenation to methanol over Cu/ZnO/Al2O3. Catalysis Science and Technology, 10(9), 2763-2768. https://doi.org/10.1039/d0cy00050g
    • Meeyoo, V., Panchan, N., Phongprueksathat, N., Traitangwong, A., Guo, X., Li, C., & Rirksomboon, T. (2020). Low temperature methanation of CO2 on high Ni content Ni-Ce-ZrOδ catalysts prepared via one-pot hydrothermal synthesis. Catalysts, 10(1), Article 32. https://doi.org/10.3390/catal10010032

    2019

    • Phongprueksathat, N., Meeyoo, V., & Rirksomboon, T. (2019). Steam reforming of acetic acid for hydrogenproduction: Catalytic performances of Ni and Co supported on Ce0·75Zr0·25O2 catalysts. International Journal of Hydrogen Energy, 44(18), 9359-9367. https://doi.org/10.1016/j.ijhydene.2019.02.085

    2022

    • Docherty, S. R., Phongprueksathat, N., Lam, E., Noh, G., Safonova, O. V., Urakawa, A., & Coperet, C. (2022). Correction: Silica-Supported PdGa Nanoparticles: Metal Synergy for Highly Active and Selective CO2-to-CH3OH Hydrogenation (JACS Au (2021) 1:4 (450−458) DOI: 10.1021/jacsau.1c00021). JACS AU, 2(8), 1946-1947. https://doi.org/10.1021/jacsau.2c00421
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