# | Document title | Authors | Year | Source | Cited by |
1 | Alkaline treatment of biomass fly ash for reactive dye removal from aqueous solution | Pengthamkeerati P., Satapanajaru T., Chatsatapattayakul N., Chairattanamanokorn P., Sananwai N. | 2010 | Desalination 261(1-2),pp. 34-40 | 68 |
2 | Production of biohydrogen from hydrolyzed bagasse with thermally preheated sludge | Chairattanamanokorn P., Chairattanamanokorn P., Penthamkeerati P., Reungsang A., Reungsang A., Lo Y., Lu W., Chang J. | 2009 | International Journal of Hydrogen Energy 34(18),pp. 7612-7617 | 58 |
3 | Delignification of disposable wooden chopsticks waste for fermentative hydrogen production by an enriched culture from a hot spring | Phummala K., Imai T., Reungsang A., Chairattanamanokorn P., Sekine M., Higuchi T., Yamamoto K., Kanno A. | 2014 | Journal of Environmental Sciences (China) 26(6),pp. 1361-1368 | 22 |
4 | Additional paper waste in pulping sludge for biohydrogen production by heat-shocked sludge | Chairattanamanokorn P., Chairattanamanokorn P., Tapananont S., Detjaroen S., Sangkhatim J., Anurakpongsatorn P., Sirirote P. | 2012 | Applied Biochemistry and Biotechnology 166(2),pp. 389-401 | 18 |
5 | Decolorization of alcohol distillery wastewater by thermotolerant white rot fungi | Chairattanamanokorn P., Imai T., Kondo R., Sekine M., Higuchi T., Ukita M. | 2005 | Applied Biochemistry and Microbiology 41(6),pp. 583-588 | 15 |
6 | Reactive blue 4 decolorization under mesophilic and thermophilic anaerobic treatments | Boonyakamol A., Imai T., Chairattanamanokorn P., Higuchi T., Sekine M., Ukita M. | 2009 | Applied Biochemistry and Biotechnology 152(3),pp. 405-417 | 14 |
7 | Screening thermotolerant white-rot fungi for decolorization of wastewaters | Chairattanamanokorn P., Imai T., Kondo R., Ukita M., Prasertsan P. | 2006 | Applied Biochemistry and Biotechnology 128(3),pp. 195-204 | 11 |
8 | Key factors regarding decolorization of synthetic anthraquinone and azo dyes | Boonyakamol A., Imai T., Chairattanamanokorn P., Higuchi T., Sekine M. | 2009 | Applied Biochemistry and Biotechnology 158(1),pp. 180-191 | 9 |
9 | Production of α-amylase by Aspergillus oryzae from cassava bagasse and wastewater sludge under solid-state fermentation | Pengthamkeerati P., Numsomboon S., Satapanajaru T., Chairattanamanokorn P. | 2012 | Environmental Progress and Sustainable Energy 31(1),pp. 122-129 | 6 |
10 | Investigation of hydrogen-producing ability of extremely halotolerant bacteria from a salt pan and salt-damaged soil in Thailand | Taroepratjeka D., Taroepratjeka D., Imai T., Chairattanamanokorn P., Reungsang A. | 2019 | International Journal of Hydrogen Energy 44(6),pp. 3407-3413 | 4 |
11 | Biohydrogen production by extremely halophilic bacteria from the salt pan of Samut Sakhon, Thailand | Taroepratjeka D.A.H., Taroepratjeka D.A.H., Imai T., Chairattanamanokorn P., Reungsang A. | 2020 | Chiang Mai Journal of Science 47(3),pp. 378-390 | 2 |
12 | Unveiling the impact of temperature shift on microbial community dynamics and metabolic pathways in anaerobic digestion | Sudiartha G.A.W., Sudiartha G.A.W., Imai T., Chairattanamanokorn P., Reungsang A., Reungsang A. | 2024 | Process Safety and Environmental Protection 186,pp. 1505-1515 | 1 |
13 | Decolorization of alcohol distillery wastewater by thermotolerant white-rot fungi. | Chairattanamanokorn P., Imai T., Kondo R., Sekine M., Higuchi T., Ukita M. | 2005 | Prikladnaia biokhimiia i mikrobiologiia 41(6),pp. 662-667 | 0 |