Dr. Sumrit Mopoung
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Dr. Sumrit Mopoung

Associate Professor
Naresuan University, Thailand

Highest Degree
Ph.D. in Chemistry from Chiang Mai University, Thailand

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Biography

Dr. Sumrit Mopoung is currently working as Lecturer of Inorganic Chemistry at the Department of Chemistry, Naresuan University, Phitsanulok. He has completed his Ph.D. in Chemistry from Chiang Mai University, Thailand. His main area of interest focuses on the Production of Charcoal and Activated Carbon from Waste Product. He has completed 24 research projects as leader and team member. He has published 29 research articles in journals as well as 6 national and international conferences papers and 5 patents contributed as author/co-author. Dr. Sumrit received honors includes Award researchers with research results that can be patented/patent portfolio and to take advantage of a substantial number two job, and Certificate of Honor 2556 Annual Award of University personnel.

Area of Interest:

Chemistry
100%
Activated Carbon Preparation
62%
Charcoal
90%
Waste Product
75%
Inorganic Chemistry
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
33
Abstracts
0

Selected Publications

  1. Tawatbundit, K. and S. Mopoung, 2022. Activated carbon preparation from sugarcane leaf via a low temperature hydrothermal process for aquaponic treatment. Materials, Vol. 15. 10.3390/ma15062133.
    CrossRef  |  Direct Link  |  
  2. Mopoung, S. and N. Dejang, 2021. Activated carbon preparation from eucalyptus wood chips using continuous carbonization-steam activation process in a batch intermittent rotary kiln. Sci. Rep., Vol. 11. 10.1038/s41598-021-93249-x.
    CrossRef  |  Direct Link  |  
  3. Mopoung, S., V. Udeye, S. Viruhpintu, N. Yimtragool and V. Unhong, 2020. Water treatment for fish aquaculture system by biochar-supplemented planting panel system. Sci. World J., Vol. 2020. 10.1155/2020/7901362.
    CrossRef  |  Direct Link  |  
  4. Mopoung, S., R. Sitthikhankaew and J. Kruekit, 2020. Production of KMnO4 loaded activated carbon from sacha inchi seed shell by low activation temperature treatment for methylene blue removal. J. Eng. Appl. Sci., 15: 421-429.
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  5. Mopoung, S., P. Amornsakchai and S. Somroop, 2016. Characterization of phosphoric acid modified activated carbon fiber from fiber waste of pineapple leaf fiber production processing. Carbon-Sci. Technol., 8: 1-12.
  6. Mopoung, S., N. Sriprang, J. Namahoot, N. Pumfang and L. Chuayudom et al., 2016. Functionalization and formation of drinking water filter rod from lignite with zeolite, bentonite and clay. Carbon-Sci. Technol., 8: 55-62.
  7. Mopoung, S. and P. Amornsakchai, 2016. Microporous activated carbon fiber from pineapple leaf fiber by H3PO4 activation. Asian J. Sci. Res., 9: 24-33.
  8. Mopoung, S., S. Inkum and L. Anuwetch, 2015. Effect of temperature on micropore of activated carbon from sticky rice straw by H3PO4 activation. Carbon-Sci. Technol., 7: 24-29.
  9. Mopoung, S., P. Moonsri, W. Palas and S. Khumpai, 2015. Characterization and properties of activated carbon prepared from tamarind seeds by KOH activation for Fe (III) adsorption from aqueous solution. Sci. World J., Vol. 2015. 10.1155/2015/415961.
    CrossRef  |  Direct Link  |  
  10. Mopoung, S. and V. Udeye, 2015. Wood charcoal and wood vinegar production from mango tree wood by using 3 m3 carbonization dome kiln. Int. J. Appl. Environ. Sci., 10: 1913-1924.
  11. Mopoung, S. and V. Udeye, 2015. Study of lead ion elimination from aqueous solution in a fixed-bed double column system using longan seed based activated carbon. Carbon-Sci. Technol., 7: 19-23.
  12. Mopoung, S., W. Singse and A. Sirikulkajorn, 2014. Preparation of metal-carbon composites from banana peel charcoal and metal salts for hydrogen storage by pyrolysis method. J. Indian Chem. Soc., 91: 1071-1078.
  13. Mopoung, S., N. Sriprang and J. Namahoot, 2014. Sintered filter materials with controlled porosity for water purification prepared from mixtures with optimal ratio of zeolite, bentonite, kaolinite and charcoal. Appl. Clay Sci., 88: 123-128.
    CrossRef  |  Direct Link  |  
  14. Mopoung, S., P. Thavornyutikarn, R. Mopoung and M. Suksawad, 2013. Effects of red clay on arsenic mobility in contaminated soil, plant growth and plant arsenic accumulation. NU. Int. J. Sci., 3: 13-19.
    Direct Link  |  
  15. Mopoung, S., N. Thammee and M. Kekngoun, 2013. The surface properties of activated carbon prepared from the trunk, root and peel of cassava. NU. Int. J. Sci., 9: 80-97.
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  16. Singse, W., S. Mopoung and A. Sirikulkajorn, 2012. Synthesis and characterization of Al, Cu, Zn, Mg-kapok carbon fiber composites. Sci. Res. Essays, 7: 1592-1604.
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  17. Mopoung, S., A. Sirikulkajorn, D. Dummun and P. Luethanom, 2012. Nanocarbonfibril in rice flour charcoal. Int. J. Phys. Sci., 7: 214-221.
    CrossRef  |  Direct Link  |  
  18. Souvakon, C., A. Vorasingha, S. Mopoung and A. Vongkunghae, 2011. Synthesis and characterization of dehydroannulene carbon allotrope apply for hydrogen fuel storage. Int. J. Phys. Sci., 6: 1477-1483.
  19. Mopoung, S., 2011. The effects of phosphoric acid and pyrolysis temperature to the formation of flaky graphite from lignite. Sci. Res. Essays, 6: 4464-4468.
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  20. Mopoung, S., 2011. Occurrence of carbon nanotube from banana peel activated carbon mixed with mineral oil. Int. J. Phys. Sci., 6: 1789-1792.
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  21. Mopoung, S., T. Liamsombut and N. Thepsuya, 2010. Production of composite sodium-nanocarbon from mixtures of banana peel charcoal and sodium hydroxide by pyrolysis process. Cont. J. Appl. Sci., 5: 61-68.
  22. Mopoung, S. and P. Preechachan, 2010. Chemical and surface properties of charcoal and activated carbon prepared from soybean milk residue. NU. Int. J. Sci., 6: 135-146.
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  23. Udeye, V., S. Mopoung, A. Vorasingha and P. Amornsakchai, 2009. Ethanol heterogeneous isentropic distillation design and construction. Int. J. Phys. Sci., 4: 101-106.
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  24. Mopoung, S. and P. Thongcharoen, 2009. Coloured intensity enhancement of latent fingerprint powder obtained from banana peel activated carbon with methylene blue. Sci. Res. Essay, 4: 8-12.
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  25. Mopoung, S., S. Inkum and L. Anuwetch, 2008. Production of activated carbon from sugarcane leave. NU. Int. J. Sci., 5: 210-220.
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  26. Mopoung, S., L. Anuwetch and S. Inkum, 2008. Properties of activated carbon from lignite. Naresaun Univ. J., 16: 127-130.
  27. Mopoung, S., 2008. Surface image of charcoal and activated charcoal from banana peel. J. Microsc. Soc. Thailand, 22: 15-19.
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  28. Mopoung, S., 2008. Chemical and surface properties of longan seed activated charcoal. Int. J. Phys. Sci., 3: 234-239.
  29. Mopoung, S., 2007. Surface properties of granulated active charcoal prepared from peels and bunch-stalks of banana charcoal. NU Sci. J., 4: 113-122.
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  30. Mopoung, S. and P. Thavornyutikarn, 2006. Leaching of arsenic from contaminated soil amended with red clay. NU. Int. J. Sci., 2: 151-156.
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  31. Mopoung, S., 2005. Chemical composition and physical properties of charcoal and activated charcoal from peel and bunch of banana. Naresuan Univ. Sci. J., 2: 107-119.
  32. Mopoung, S. and P. Thavornyutikarn, 2004. Immobility of arsenic in contaminated soil by red clay. Asean J. Sci. Technol. Dev., 21: 81-91.
  33. Mopoung, S. and P. Thavornyutikarn, 2004. Adsorption of arsenate on clays. NU. Int. J. Sci., 1: 1-10.
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