มานพ เจริญไชยตระกูล
รองศาสตราจารย์
ภาควิชาวิศวกรรมเคมี คณะวิศวกรรมศาสตร์ บางเขน
fengmnc@ku.ac.th
0-2942-8555 ext.1216
EDUCATION
- B.E.( Chemical Engineering ), University of New South Wales , AUSTRALIA, 2539
- Ph.D..( Chemical Engineering ), University of New South Wales , AUSTRALIA, 2544
RESOURCE
แหล่งที่มา
ผลงาน
Works
INTEREST
ความสนใจ
Supercritical CO2 Extraction, Pharmaceutical- Polymer Composites
Expertise Cloud
ความเชี่ยวชาญ
Person
Relationship
นักวิจัย
ที่มีผลงานมากที่สุด 10 คนแรก
Scopus
h-index
h-index: 14
| # | Document title | Authors | Year | Source | Cited by |
|---|---|---|---|---|---|
| 1 | Micronization by rapid expansion of supercritical solutions to enhance the dissolution rates of poorly water-soluble pharmaceuticals | Charoenchaitrakool M., Dehghani F., Foster N., Chan H. | 2000 | Industrial and Engineering Chemistry Research, 39(12), pp. 4794-4802 | 256 |
| 2 | Utilization of supercritical carbon dioxide for complex formation of ibuprofen and methyl-?-cyclodextrin | Charoenchaitrakool M., Dehghani F., Foster N. | 2002 | International Journal of Pharmaceutics, 239(1-2), pp. 103-112 | 130 |
| 3 | Texture Modification Technologies and Their Opportunities for the Production of Dysphagia Foods: A Review | Sungsinchai S., Niamnuy C., Wattanapan P., Charoenchaitrakool M., Devahastin S., Devahastin S. | 2019 | Comprehensive Reviews in Food Science and Food Safety, 18(6), pp. 1898-1912 | 112 |
| 4 | Statistical optimization for biodiesel production from waste frying oil through two-step catalyzed process | Charoenchaitrakool M., Thienmethangkoon J. | 2011 | Fuel Processing Technology, 92(1), pp. 112-118 | 103 |
| 5 | Particle formation of ibuprofen-supercritical CO | Hirunsit P., Huang Z., Srinophakun T., Charoenchaitrakool M., Kawi S. | 2005 | Powder Technology, 154(2-3), pp. 83-94 | 73 |
| 6 | Bioactive Compounds and Bioactivities of Centella asiatica (L.) Urban Prepared by Different Drying Methods and Conditions | Niamnuy C., Charoenchaitrakool M., Mayachiew P., Devahastin S. | 2013 | Drying Technology, 31(16), pp. 2007-2015 | 54 |
| 7 | Application of dense gas techniques for the production of fine particles | Foster N.R., Dehghani F., Charoenchaitrakool K.M., Warwick B. | 2003 | AAPS PharmSci, 5(2) | 39 |
| 8 | Processing of ketoconazole-4-aminobenzoic acid cocrystals using dense CO | Kotbantao G., Charoenchaitrakool M. | 2017 | Journal of CO2 Utilization, 17, pp. 213-219 | 34 |
| 9 | Application of Box-Behnken design for processing of mefenamic acid-paracetamol cocrystals using gas anti-solvent (GAS) process | Wichianphong N., Charoenchaitrakool M. | 2018 | Journal of CO2 Utilization, 26, pp. 212-220 | 32 |
| 10 | Gas anti-solvent processing of a new sulfamethoxazole-l-malic acid cocrystal | Imchalee R., Charoenchaitrakool M. | 2015 | Journal of Industrial and Engineering Chemistry, 25, pp. 12-15 | 28 |
| 11 | Statistical optimization for production of mefenamic acid–nicotinamide cocrystals using gas anti-solvent (GAS) process | Wichianphong N., Charoenchaitrakool M. | 2018 | Journal of Industrial and Engineering Chemistry, 62, pp. 375-382 | 26 |
| 12 | Application of gas anti-solvent process to the recovery of andrographolide from Andrographis paniculatanees | Charoenchaitrakool M., Trisilanun W., Srinopakhun P. | 2010 | Korean Journal of Chemical Engineering, 27(3), pp. 950-954 | 16 |
| 13 | Dissolution rate enhancement of sulfamethoxazole using the gas anti-solvent (GAS) process | Phothipanyakun S., Suttikornchai S., Charoenchaitrakool M. | 2013 | Powder Technology, 250, pp. 84-90 | 15 |
| 14 | Production of PLA/cellulose derived from pineapple leaves as bio-degradable mulch film | Sukwijit C., Seubsai A., Charoenchaitrakool M., Sudsakorn K., Niamnuy C., Roddecha S., Prapainainar P. | 2024 | International Journal of Biological Macromolecules, 270, 132299 | 15 |
| 15 | Co-precipitation of mefenamic acid-polyvinylpyrrolidone K30 composites using Gas Anti-Solvent | Dittanet P., Phothipanyakun S., Charoenchaitrakool M. | 2016 | Journal of the Taiwan Institute of Chemical Engineers, 63, pp. 17-24 | 12 |
| 16 | Production of theophylline and polyethylene glycol 4000 composites using Gas Anti-Solvent (GAS) process | Charoenchaitrakool M., Polchiangdee C., Srinophakun P. | 2009 | Materials Letters, 63(1), pp. 136-138 | 9 |
| 17 | Spray drying of non-chemically prepared nanofibrillated cellulose: Improving water redispersibility of the dried product | Sungsinchai S., Niamnuy C., Wattanapan P., Wattanapan P., Charoenchaitrakool M., Devahastin S., Devahastin S. | 2022 | International Journal of Biological Macromolecules, 207, pp. 434-442 | 9 |
| 18 | Fe | Numpilai T., Donphai W., Du Z., Cheng C.K., Charoenchaitrakool M., Chareonpanich M., Witoon T. | 2022 | Chemosphere, 308, 136356 | 8 |
| 19 | Statistical optimization for precipitation of bioactive compounds from extracted Centella asiatica using gas anti-solvent technique | Charoenchaitrakool M., Niamnuy C., Dittanet P., Chantes O., Chuangyang P. | 2020 | Journal of Food Process Engineering, 43(2), e13318 | 7 |
| 20 | Co-precipitation of mefenamic acid and polyethylene glycol 4000 using the Gas anti-solvent (GAS) process | Charoenchaitrakool M., Suttikornchai S., Songjitsomboon T. | 2013 | Chiang Mai Journal of Science, 40(3), pp. 440-446 | 5 |
| 21 | Facile Synthesis of Glycerol Carbonate Using Green Catalysts Derived from Pineapple Peels | Topool B., Charoenchaitrakool M., Sudsakorn K. | 2023 | Topics in Catalysis | 4 |
| 22 | Carboxymethyl cellulose and gelatin composite hydrogel for environmentally friendly urea delivery | Charoenchaitrakool M., Tulathon P., Meesangnil W., Niamnuy C., Seubsai A., Nunta S., Sudsakorn K. | 2024 | Colloids and Surfaces A: Physicochemical and Engineering Aspects, 690, 133774 | 4 |
| 23 | Processing of a novel mefenamic acid-paracetamol-nicotinamide cocrystal using gas anti-solvent process | Charoenchaitrakool M., Roubroum T., Sudsakorn K. | 2022 | Journal of CO2 Utilization, 62, 102080 | 4 |
| 24 | Synthesis and Characterization of Environmentally Friendly ?-Cyclodextrin Cross-Linked Cellulose/Poly(vinyl alcohol) Hydrogels for Adsorption of Malathion | Thongrueng M., Sudsakorn K., Charoenchaitrakool M., Seubsai A., Panchan N., Devahastin S., Devahastin S., Niamnuy C. | 2024 | ACS Omega | 4 |
| 25 | Application of dense gas techniques for the production of fine particles | Foster N.R., Dehghani F., Charoenchaitrakool K.M., Warwick B. | 2003 | AAPS Journal, 5(2) | 1 |
| 26 | Efficient Cellulose/Nano-silver Composite Sheet Derived from Pineapple Leaves for Hydrogen Sulfide Detection | Thongboon S., Muenchanama C., Chanthanumatt R., Charoenchaitrakool M., Sudsakorn K., Prapainainar P., Roddecha S., Chareonpanich M., Faungnawakij K., Seubsai A. | 2023 | ChemNanoMat, e202300429 | 1 |
| 27 | Cleaning of lubricant-oil-contaminated plastic using liquid carbon dioxide | Charoenchaitrakool M., Tungkasatan S., Vatanatham T., Limtrakul S. | 2016 | Journal of Industrial and Engineering Chemistry, 34, pp. 313-320 | 1 |
| 28 | Precipitation of bioactive ingredients from extracted Centella asiatica via gas anti-solvent technique | Charoenchaitrakool M., Chantes O. | 2018 | Proceedings of the World Congress on Mechanical, Chemical, and Material Engineering, 106 | 0 |
| 29 | Development of nano-nickel catalyst by using supercritical CO2 for methane cracking | Charoenchaitrakool M., Chareonpanich M., Saithongsuk P. | 2017 | Proceedings of the World Congress on Mechanical, Chemical, and Material Engineering | 0 |
| 30 | Statistical optimization for biodiesel production from Jatropha curcas oil using two-step catalyzed process | Charoenchaitrakool M., Thamvijit T. | 2010 | 19th International Congress of Chemical and Process Engineering, CHISA 2010 and 7th European Congress of Chemical Engineering, ECCE-7 | 0 |
| 31 | Improved dissolution of ketoconazole by coprecipitation with nicotinamide using gas anti-solvent process | Juengwongsa C., Charoenchaitrakool M., Charoenthai N., Puttipipatkhachorn S. | 2024 | Pharmaceutical Sciences Asia, 51(2), pp. 94-105 | 0 |
| 32 | Optimizing the Precipitation of Bioactive Compounds From Extracted Curcuma longa Linn. Using Gas Anti-Solvent Process | Charoenchaitrakool M., Lengmangmee C., Youngkum P. | 2024 | Journal of Food Process Engineering, 47(11), e14771 | 0 |
| 33 | The Great Versatility of Supercritical Fluids in Industrial Processes: A Focus on Chemical, Agri-Food and Energy Applications | Kamjam M., Ngamprasertsith S., Sawangkeaw R., Charoenchaitrakool M., Privat R., Jaubert J.N., Moli?re M., Moli?re M. | 2024 | Processes, 12(11), 2402 | 0 |
| 34 | Sustainable development of hybrid aerogels from surplus gelatin and chitosan for enhancing the dissolution rate of clotrimazole | Charoenchaitrakool M., Youngkum P., Sudsakorn K., Niamnuy C., Prapainainar P., Kaewmanee S. | 2025 | Polymer Engineering and Science, 65(3), pp. 1567-1581 | 0 |