What we do

We are researching on clean technologies such as CO2 to methanol, bio-ethanol to ethylene or methanation via electrolysis.
We have a strong expertise in catalyst synthesis, catalytic reaction engineering and membrane technologies.

We have been internationally collaborating with many world class universities and industries such as Imperial College London (UK),
Sunway University (Malaysia), Oregon State University (US), Unimap (Malaysia), PTT (Thailand), Leibniz-Institut für Katalyse (Germany).
Some of these collaborations have been technically and financially supported by RAEng (UK) via Newton Fund Scheme and European
Commission (EU) via SEA-EU JFS programme.

Since 2015, we have been supported by Thai funding agencies such as TRF, NRCT, NSTDA, PMU-C and so on.

So our patents, book chapters, publications and, book please see the list with external links below.

We are researching on clean technologies such as CO2 to methanol, bio-ethanol to ethylene or methanation via electrolysis. We have a strong expertise in catalyst synthesis, catalytic reaction engineering and membrane technologies.

We have been internationally collaborating with many world class universities and industries such as Imperial College London (UK), Sunway University (Malaysia), Oregon State University (US), Unimap (Malaysia), PTT (Thailand), Leibniz-Institut für Katalyse (Germany). Some of these collaborations have been technically and financially supported by RAEng (UK) via Newton Fund Scheme and European Commission (EU) via SEA-EU JFS programme.

Since 2015, we have been supported by Thai funding agencies such as TRF, NRCT, NSTDA, PMU-C and so on.

So our patents, book chapters, publications and, book please see the list with external links below.

Publications

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37. Catalytic Performance of Waste-Based Metal Oxides Towards Waste-Based Combustion Process

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36. Study of nitrous oxide utilization for syngas production via partial oxidation of methane using Ni-doped perovskite catalysts

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35. Direct dimethyl carbonate synthesis from CO2 and methanol over a flower-like CeO2 catalyst with 2-cyanopyridine as a dehydrating agent in continuous packed-bed reactor

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34. Overview of the latest progress and prospects in the catalytic hydrogenation of carbon dioxide (CO2) to methanol in membrane reactors

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33. Structural effect of one-dimensional nanowire 2%Mn-5%Na2WO4/SiO2 catalyst towards oxidative coupling of methane

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32. Two‑steps thermochemical cycles of H2O/ CO2 co‑splitting over Ba0.95La0.05FeO3 (BLF) in a packed bed reactor and micro‑channel reactor

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Book chapter

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Chapter 9. Advanced ceramic membrane design for gas separation and energy application

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Chapter 12. Dual functional nano zeolites for CO2 capture and conversion

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Chapter 15. Technoeconomic analysis of nanomaterials in CO2 capture and conversion technologies

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Book

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Patents

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