Silica-Supported PdGa Nanoparticles: Metal Synergy for Highly Active and Selective CO2-to-CH3OH Hydrogenation SR Docherty, N Phongprueksathat, E Lam, G Noh, OV Safonova, ... JACS Au 1 (4), 450-458, 2021 | 43 | 2021 |
From CO or CO 2?: space-resolved insights into high-pressure CO 2 hydrogenation to methanol over Cu/ZnO/Al 2 O 3 R Gaikwad, H Reymond, N Phongprueksathat, PR Von Rohr, A Urakawa Catalysis Science & Technology 10 (9), 2763-2768, 2020 | 40 | 2020 |
Steam reforming of acetic acid for hydrogenproduction: catalytic performances of Ni and Co supported on Ce0· 75Zr0· 25O2 catalysts N Phongprueksathat, V Meeyoo, T Rirksomboon international journal of hydrogen energy 44 (18), 9359-9367, 2019 | 25 | 2019 |
Low Temperature Methanation of CO2 on High Ni Content Ni-Ce-ZrOδ Catalysts Prepared via One-Pot Hydrothermal Synthesis V Meeyoo, N Panchan, N Phongprueksathat, A Traitangwong, X Guo, C Li, ... Catalysts 10 (1), 32, 2019 | 17 | 2019 |
Greener and facile synthesis of Cu/ZnO catalysts for CO 2 hydrogenation to methanol by urea hydrolysis of acetates N Phongprueksathat, A Bansode, T Toyao, A Urakawa RSC advances 11 (24), 14323-14333, 2021 | 9 | 2021 |
Bifunctionality of Re Supported on TiO2 in Driving Methanol Formation in Low-Temperature CO2 Hydrogenation N Phongprueksathat, KW Ting, S Mine, Y Jing, R Toyoshima, H Kondoh, ... ACS catalysis 13 (16), 10734-10750, 2023 | 8 | 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 … H Zhou, SR Docherty, N Phongprueksathat, Z Chen, AV Bukhtiyarov, ... JACS Au 3 (9), 2536-2549, 2023 | 6 | 2023 |
Spatially resolved investigation into the coke formation and chemical states of nickel during autothermal reforming of acetic acid over Ni/CeO 2–ZrO 2 catalysts N Phongprueksathat, T Thanasujaree, V Meeyoo, T Rirksomboon Reaction Chemistry & Engineering 7 (6), 1335-1345, 2022 | 2 | 2022 |
Heterogeneously Catalyzed CO 2 Hydrogenation to Alcohols N Phongprueksathat, A Urakawa CO2 Hydrogenation Catalysis, 207-236, 2021 | 2 | 2021 |
Structures, activities, and mechanisms under the spectroscopes: the quest for unveiling the nature of active sites for highly selective CO2 hydrogenation to methanol N Phongprueksathat | 1 | 2023 |
Enhancing Sustainability Through Heterogeneous Catalytic Conversions at High Pressure N Phongprueksathat, A Urakawa Heterogeneous Catalysts: Advanced Design, Characterization and Applications …, 2021 | 1 | 2021 |
Correction to “Silica-Supported PdGa Nanoparticles: Metal Synergy for Highly Active and Selective CO2-to-CH3OH Hydrogenation” SR Docherty, N Phongprueksathat, E Lam, G Noh, OV Safonova, ... JACS Au 2 (8), 1946-1947, 2022 | | 2022 |
Comparative study of non-noble metal catalysts supported on alumina for lactic acid production via glycerol hydrogenolysis N Phongprueksathat, T Nipitthranon CHEMECA (2015: Melbourne, Vic.), 1873-1874, 2015 | | 2015 |