Waleeporn Donphai
Department of Chemical Engineering | Associate Professor
論文著作
Papers
1)P. Poosri, O. Phichairatanaphong, T. Witoon, M. Chareonpanich, W. Donphai*, Silica-anchored cerium-magnesium supported nickel toward improved CO2 reforming of CH4, Molecular Catalysis, 592 (2026) 115722.
2)O. Leelaphuthipong, T. Butburee, K. Faungnawakij, M. Chareonpanich, W. Donphai*, Tailoring Morphology-Controlled Bismuth Vanadate Composite with Graphitic Carbon Nitride for Photocatalytic H2 Evolution, Materials Today Sustainability 31 (2025) 101140.
3)O. Phichairatanaphong, O. Leelaphuthipong, Y. Poo-arporn, M. Chareonpanich, W. Donphai*, Catalytic role of nickel/silica foams structure in boosting hydrogen production from methane, Inorganic Chemistry Communications 175 (2025) 114213.
4)W. Donphai, S. Chumpornrat1, P. Sangteantong, K. Chainarong, V. Varabuntoonvit, M. Chareonpanich, Bagasse Heavy Ash Valorization Superhyhobic Mesoporous Silica with Enhanced Air Permeability, Waste and Biomass Valorization, 2025.
5)W. Donphai*, O. Phichairatanaphong, R. Fujii, P. Li, T. Chang, M. Yabushita, Y. Nakagawa, K. Tomishige*, Synthesis of dimethyl carbonate from CO2 and methanol over CeO2 catalysts prepared by soft-template precipitation and hydrothermal method, Materials Today Sustainability, 2023, 24, 100549.
6)O. Phichairatanaphong, N. Yigit, G. Rupprechter, M. Chareonpanich, W. Donphai*, Highly Efficient Conversion of Greenhouse Gases Using a Quadruple Mixed Oxide-Supported Nickel Catalyst in Reforming Process, Ind. Eng. Chem. Res. 2023, 62, 16254-16267.
7)S. Lertthanu, M. Chareonpanich, W. Donphai*, High adsorption capacity of ammonia nitrogen on hexagonal porous aluminosilicate derived from solid-waste bagasse bottom ash, Environmental Research, 2023, 237, 116957.
8)W. Donphai, N. Thepphankulngarm, T. Chaisuwan, D. Tanangteerapong, S. C. Rood, P. Kongkachuichay, Catalytic performance of copper and ruthenium loaded on N-doped modified PBZ-derived carbons for CO2 hydrogenation, Chemical Engineering Science, 2023, 274, 118693.
9)O. Phichairatanaphong, W. Donphai*, Role of Cerium–Zirconium Ratio and Chemical Surface Property of CeO2–ZrO2 Supported Nickel-Based Catalysts in Dry Reforming Reaction, Topics in Catalysis, 2023, 66, 1569–1580.
10)O. Phichairatanaphong, Y. Poo-Arporn, M. Chareonpanich, W. Donphai*, Effect of Calcination Temperature on Cu-Modified Ni Catalysts Supported on Mesocellular Silica for Methane Decomposition, ACS Omega 2022, 7, 14264-14275.
11)W. Donphai, N. Musikanon, Zehui Du, P. Sangteantong, K. Chainarong, M. Chareonpanich. Preparation of C-Zn functionalized MCM-41 from bagasse heavy ash for adsorption of volatile organic compounds. Materials Letters, 2022, 307, 131065.
12)W. Donphai, N. Kunthakudee, S. Munpollasri, P. Sangteantong, S. Tonlublao, W. Limphirat, Y. Poo-arporn, S. Kiatphuengporn, M. Chareonpanich, Application of magnetic field to CO hydrogenation using a confined-space catalyst: effect on reactant gas diffusivity and reactivity, RSC Advances, 2021, 11, 3990.
13)J. Chaisamphao, S. Kiatphuengporn, K. Faungnawakij, W. Donphai*, M. Chareonpanich. Effect of Modified Nanoclay Surface Supported Nickel Catalyst on Carbon Dioxide Reforming of Methane. Topics in Catalysis. 2021, 64, 431–445.
14)O. Phichairatanaphong, P. Teepakakorn, Y. Poo-arporn, M. Chareonpanich, W. Donphai*, Infiltrate Mesoporous Silica-Aluminosilicate Structure Improves Hydrogen Production via Methane Decomposition over a Nickel-Based Catalyst. Industrial & Engineering Chemistry Research. 2021, 60, 12, 4562–4574.
2)O. Leelaphuthipong, T. Butburee, K. Faungnawakij, M. Chareonpanich, W. Donphai*, Tailoring Morphology-Controlled Bismuth Vanadate Composite with Graphitic Carbon Nitride for Photocatalytic H2 Evolution, Materials Today Sustainability 31 (2025) 101140.
3)O. Phichairatanaphong, O. Leelaphuthipong, Y. Poo-arporn, M. Chareonpanich, W. Donphai*, Catalytic role of nickel/silica foams structure in boosting hydrogen production from methane, Inorganic Chemistry Communications 175 (2025) 114213.
4)W. Donphai, S. Chumpornrat1, P. Sangteantong, K. Chainarong, V. Varabuntoonvit, M. Chareonpanich, Bagasse Heavy Ash Valorization Superhyhobic Mesoporous Silica with Enhanced Air Permeability, Waste and Biomass Valorization, 2025.
5)W. Donphai*, O. Phichairatanaphong, R. Fujii, P. Li, T. Chang, M. Yabushita, Y. Nakagawa, K. Tomishige*, Synthesis of dimethyl carbonate from CO2 and methanol over CeO2 catalysts prepared by soft-template precipitation and hydrothermal method, Materials Today Sustainability, 2023, 24, 100549.
6)O. Phichairatanaphong, N. Yigit, G. Rupprechter, M. Chareonpanich, W. Donphai*, Highly Efficient Conversion of Greenhouse Gases Using a Quadruple Mixed Oxide-Supported Nickel Catalyst in Reforming Process, Ind. Eng. Chem. Res. 2023, 62, 16254-16267.
7)S. Lertthanu, M. Chareonpanich, W. Donphai*, High adsorption capacity of ammonia nitrogen on hexagonal porous aluminosilicate derived from solid-waste bagasse bottom ash, Environmental Research, 2023, 237, 116957.
8)W. Donphai, N. Thepphankulngarm, T. Chaisuwan, D. Tanangteerapong, S. C. Rood, P. Kongkachuichay, Catalytic performance of copper and ruthenium loaded on N-doped modified PBZ-derived carbons for CO2 hydrogenation, Chemical Engineering Science, 2023, 274, 118693.
9)O. Phichairatanaphong, W. Donphai*, Role of Cerium–Zirconium Ratio and Chemical Surface Property of CeO2–ZrO2 Supported Nickel-Based Catalysts in Dry Reforming Reaction, Topics in Catalysis, 2023, 66, 1569–1580.
10)O. Phichairatanaphong, Y. Poo-Arporn, M. Chareonpanich, W. Donphai*, Effect of Calcination Temperature on Cu-Modified Ni Catalysts Supported on Mesocellular Silica for Methane Decomposition, ACS Omega 2022, 7, 14264-14275.
11)W. Donphai, N. Musikanon, Zehui Du, P. Sangteantong, K. Chainarong, M. Chareonpanich. Preparation of C-Zn functionalized MCM-41 from bagasse heavy ash for adsorption of volatile organic compounds. Materials Letters, 2022, 307, 131065.
12)W. Donphai, N. Kunthakudee, S. Munpollasri, P. Sangteantong, S. Tonlublao, W. Limphirat, Y. Poo-arporn, S. Kiatphuengporn, M. Chareonpanich, Application of magnetic field to CO hydrogenation using a confined-space catalyst: effect on reactant gas diffusivity and reactivity, RSC Advances, 2021, 11, 3990.
13)J. Chaisamphao, S. Kiatphuengporn, K. Faungnawakij, W. Donphai*, M. Chareonpanich. Effect of Modified Nanoclay Surface Supported Nickel Catalyst on Carbon Dioxide Reforming of Methane. Topics in Catalysis. 2021, 64, 431–445.
14)O. Phichairatanaphong, P. Teepakakorn, Y. Poo-arporn, M. Chareonpanich, W. Donphai*, Infiltrate Mesoporous Silica-Aluminosilicate Structure Improves Hydrogen Production via Methane Decomposition over a Nickel-Based Catalyst. Industrial & Engineering Chemistry Research. 2021, 60, 12, 4562–4574.