ประกิต สุขใย
รองศาสตราจารย์
ภาควิชาเทคโนโลยีชีวภาพ คณะอุตสาหกรรมเกษตร บางเขน
fagipks@ku.ac.th
025625077
EDUCATION
- postdoc fellowship, Seoul National University, Korea, 2553
- Dr.nat.techn.(Food Biotechnology ), Bodenkultur , Austria
- วท.ม.(เทคโนโลยีชีวภาพ ), มหาวิทยาลัยเกษตรศาสตร์, ไทย
- วท.บ.(เทคโนโลยีชีวภาพ ), มหาวิทยาลัยเกษตรศาสตร์, ไทย
RESOURCE
แหล่งที่มา
ผลงาน
Works
INTEREST
ความสนใจ
Biodegradability of bioplastics, Nanocellulose, composting, Cellulose extraction and application, Sucrose technology
Expertise Cloud
ความเชี่ยวชาญ
Person
Relationship
นักวิจัย
ที่มีผลงานมากที่สุด 10 คนแรก
Scopus
h-index
h-index: 24
| # | Document title | Authors | Year | Source | Cited by |
|---|---|---|---|---|---|
| 1 | Bacterial cellulose-based scaffold materials for bone tissue engineering | Torgbo S., Torgbo S., Sukyai P. | 2018 | Applied Materials Today, 11, pp. 34-49 | 230 |
| 2 | An environmentally friendly xylanase-assisted pretreatment for cellulose nanofibrils isolation from sugarcane bagasse by high-pressure homogenization | Saelee K., Yingkamhaeng N., Nimchua T., Sukyai P. | 2016 | Industrial Crops and Products, 82, pp. 149-160 | 169 |
| 3 | Effect of cellulose nanocrystals from sugarcane bagasse on whey protein isolate-based films | Sukyai P., Anongjanya P., Bunyahwuthakul N., Kongsin K., Harnkarnsujarit N., Sukatta U., Sothornvit R., Chollakup R. | 2018 | Food Research International, 107, pp. 528-535 | 154 |
| 4 | Antioxidant and antibacterial activities of cassava starch and whey protein blend films containing rambutan peel extract and cinnamon oil for active packaging | Chollakup R., Pongburoos S., Boonsong W., Khanoonkon N., Kongsin K., Sothornvit R., Sukyai P., Sukatta U., Harnkarnsujarit N. | 2020 | LWT, 130, 109573 | 133 |
| 5 | Biodegradation and thermal stability of bacterial cellulose as biomaterial: The relevance in biomedical applications | Torgbo S., Sukyai P. | 2020 | Polymer Degradation and Stability, 179, 109232 | 125 |
| 6 | Fabrication of microporous bacterial cellulose embedded with magnetite and hydroxyapatite nanocomposite scaffold for bone tissue engineering | Torgbo S., Torgbo S., Sukyai P. | 2019 | Materials Chemistry and Physics, 237, 121868 | 106 |
| 7 | Water and humidity-induced shape memory cellulose nanopaper with quick response, excellent wet strength and folding resistance | Wu M., Sukyai P., Lv D., Zhang F., Wang P., Liu C., Li B. | 2020 | Chemical Engineering Journal, 392, 123673 | 106 |
| 8 | Production of hydroxyapatite-bacterial nanocellulose scaffold with assist of cellulose nanocrystals | Niamsap T., Lam N., Sukyai P. | 2019 | Carbohydrate Polymers, 205, pp. 159-166 | 86 |
| 9 | Effect of xylanase-assisted pretreatment on the properties of cellulose and regenerated cellulose films from sugarcane bagasse | Vanitjinda G., Nimchua T., Sukyai P. | 2019 | International Journal of Biological Macromolecules, 122, pp. 503-516 | 78 |
| 10 | Utilizing cellulose from sugarcane bagasse mixed with poly(vinyl alcohol) for tissue engineering scaffold fabrication | Lam N.T., Chollakup R., Smitthipong W., Nimchua T., Sukyai P. | 2017 | Industrial Crops and Products, 100, pp. 183-197 | 76 |
| 11 | Oxidoreductases from Trametes spp. in biotechnology: A wealth of catalytic activity | Nyanhongo G., G?bitz G., Sukyai P., Sukyai P., Leitner C., Haltrich D., Ludwig R., Ludwig R. | 2007 | Food Technology and Biotechnology, 45(3), pp. 250-268 | 70 |
| 12 | Characterization of Cellulose Nanocrystals Extracted from Sugarcane Bagasse for Potential Biomedical Materials | Lam N., Chollakup R., Smitthipong W., Nimchua T., Sukyai P. | 2017 | Sugar Tech, 19(5), pp. 539-552 | 67 |
| 13 | Homogenous isolation of individualized bacterial nanofibrillated cellulose by high pressure homogenization | Kawee N., Lam N., Sukyai P. | 2018 | Carbohydrate Polymers, 179, pp. 394-401 | 64 |
| 14 | Cellulosic value-added products from sugarcane bagasse | Torgbo S., Quan V.M., Sukyai P. | 2021 | Cellulose, 28(9), pp. 5219-5240 | 57 |
| 15 | Bioactive wound dressing using bacterial cellulose loaded with papain composite: Morphology, loading/release and antibacterial properties | Asanarong O., Minh Quan V., Boonrungsiman S., Sukyai P. | 2021 | European Polymer Journal, 143, 110224 | 53 |
| 16 | Production of lactose-free galacto-oligosaccharide mixtures: comparison of two cellobiose dehydrogenases for the selective oxidation of lactose to lactobionic acid | Maischberger T., Maischberger T., Nguyen T., Nguyen T., Sukyai P., Sukyai P., Kittl R., Riva S., Ludwig R., Ludwig R., Haltrich D. | 2008 | Carbohydrate Research, 343(12), pp. 2140-2147 | 51 |
| 17 | Synthesis of novel poly (vinyl alcohol)/tamarind gum/bentonite-based composite films for drug delivery applications | Qureshi D., Behera K.P., Mohanty D., Mahapatra S.K., Verma S., Sukyai P., Banerjee I., Pal S.K., Mohanty B., Kim D., Pal K. | 2021 | Colloids and Surfaces A: Physicochemical and Engineering Aspects, 613, 126043 | 43 |
| 18 | Development of nanocomposite film comprising of polyvinyl alcohol (Pva) incorporated with bacterial cellulose nanocrystals and magnetite nanoparticles | Usawattanakul N., Torgbo S., Sukyai P., Khantayanuwong S., Puangsin B., Srichola P. | 2021 | Polymers, 13(11), 1778 | 38 |
| 19 | Pretreatment of Cellulose from Sugarcane Bagasse with Xylanase for Improving Dyeability with Natural Dyes | Senapitakkul V., Vanitjinda G., Torgbo S., Pinmanee P., Pinmanee P., Nimchua T., Rungthaworn P., Sukatta U., Sukyai P. | 2020 | ACS Omega | 36 |
| 20 | Pretreatment and enzymatic saccharification of oak at high solids loadings to obtain high titers and high yields of sugars | Kim D.H., Park H.M., Jung Y.H., Sukyai P., Kim K.H. | 2019 | Bioresource Technology, 284, pp. 391-397 | 34 |
| 21 | Bio-scaffold for bone tissue engineering with focus on bacterial cellulose, biological materials for hydroxyapatite synthesis and growth factors | Buer Boyetey M.J., Torgbo S., Sukyai P. | 2023 | European Polymer Journal, 194, 112168 | 34 |
| 22 | Extraction of cellulose nanofibrils from amylase-treated cassava bagasse using high-pressure homogenization | Panyasiri P., Yingkamhaeng N., Lam N., Sukyai P. | 2018 | Cellulose, 25(3), pp. 1757-1768 | 33 |
| 23 | Ohmic heating extraction and characterization of rambutan (Nephelium lappaceum L.) peel extract with enhanced antioxidant and antifungal activity as a bioactive and functional ingredient in white bread preparation | Torgbo S., Sukatta U., Kamonpatana P., Sukyai P. | 2022 | Food Chemistry, 382, 132332 | 30 |
| 24 | Comparing soluble and co-immobilized catalysts for 2-ketoaldose production by pyranose 2-oxidase and auxiliary enzymes | Sukyai P., Sukyai P., Rezi? T., Lorenz C., Mueangtoom K., Mueangtoom K., Lorenz W., Haltrich D., Ludwig R., Ludwig R. | 2008 | Journal of Biotechnology, 135(3), pp. 281-290 | 26 |
| 25 | Fiber morphology, chemical composition, and properties of kraft pulping handsheet made from four Thailand bamboo species | Khantayanuwong S., Yimlamai P., Chitbanyong K., Wanitpinyo K., Pisutpiched S., Sungkaew S., Sukyai P., Puangsin B. | 2023 | Journal of Natural Fibers, 20(1), 2150924 | 23 |
| 26 | The effect of bacterial cellulose on the mechanical and thermal expansion properties of kenaf/polylactic acid composites | Sukyai P., Sriroth K., Lee B., Kim H. | 2012 | Applied Mechanics and Materials, 117-119, pp. 1343-1351 | 22 |
| 27 | Fabrication and Characterisation of Functionalised Superparamagnetic Bacterial Nanocellulose Using Ultrasonic-Assisted In Situ Synthesis | Yingkamhaeng N., Intapan I., Sukyai P. | 2018 | Fibers and Polymers, 19(3), pp. 489-497 | 20 |
| 28 | Synergistic effect of xylanase and laccase on structural features of energy cane | Yingkamhaeng N., Nimchua T., Pinmanee P., Pinmanee P., Suwanprateep J., Rungmekarat S., Sukyai P. | 2022 | Industrial Crops and Products, 176, 114410 | 20 |
| 29 | Multifunctional filter membrane for face mask using bacterial cellulose for highly efficient particulate matter removal | Jonsirivilai B., Torgbo S., Sukyai P. | 2022 | Cellulose, 29(11), pp. 6205-6218 | 18 |
| 30 | Xylanase pretreatment of energy cane enables facile cellulose nanocrystal isolation | Meesupthong R., Yingkamhaeng N., Nimchua T., Pinmanee P., Pinmanee P., Mussatto S.I., Li B., Sukyai P. | 2021 | Cellulose, 28(2), pp. 799-812 | 18 |
| 31 | Sugarcane leave-derived cellulose nanocrystal/graphene oxide filter membrane for efficient removal of particulate matter | Chantaso M., Chaiyong K., Meesupthong R., Yingkamhaeng N., Diem L.N., Torgbo S., Sukyai P., Khantayanuwong S., Puangsin B., Srichola P. | 2023 | International Journal of Biological Macromolecules, 234, 123676 | 17 |
| 32 | Release Kinetic Model and Antimicrobial Activity of Freeze-Dried Curcumin-loaded Bacterial Nanocellulose Composite | Vachanont Tangsatianpan , Torgbo S., Sukyai P. | 2020 | Polymer Science - Series A, 62(3), pp. 218-227 | 16 |
| 33 | Effect of varying hydrolysis time on extraction of spherical bacterial cellulose nanocrystals as a reinforcing agent for poly(vinyl alcohol) composites | Lam N., Saewong W., Sukyai P. | 2017 | Journal of Polymer Research, 24(5), 71 | 15 |
| 34 | Effectiveness of bio-dispersant in homogenizing hydroxyapatite for proliferation and differentiation of osteoblast | Tien Lam N., Minh Quan V., Boonrungsiman S., Sukyai P. | 2022 | Journal of Colloid and Interface Science, 611, pp. 491-502 | 15 |
| 35 | Application of green produced xylooligosaccharides from sugarcane residues and their properties – Recent progress towards sustainability | Mensah R.Q., Yingkamhaeng N., Venkatachalam P., Show P.L., Mussatto S.I., Sriariyanun M., Sukyai P., Parakulsuksatid P., Rattanaporn K. | 2023 | Bioresource Technology Reports, 23, 101537 | 14 |
| 36 | Research and Development Prospects for Sugarcane and Sugar Industry in Thailand | Sukyai P., Yingkamhaeng N., Lam N., Tangsatianpan V., Watcharinrat C., Vanitjinda G., Vanichsriratana W., Sriroth K. | 2016 | Sugar Tech, 18(6), pp. 583-587 | 14 |
| 37 | Rambutan (Nephelium lappaceum) peel extract: Antimicrobial and antioxidant activities and its application as a bioactive compound in whey protein isolate film | Sukatta U., Rugthaworn P., Khanoonkon N., Anongjanya P., Kongsin K., Sukyai P., Harnkarnsujarit N., Sothornvit R., Chollakup R. | 2021 | Songklanakarin Journal of Science and Technology, 43(1), pp. 37-44 | 13 |
| 38 | Production of Nylon-6/Cellulose Nanocrystal Composite Films Using Solvent Dissolution | Sucharitpong T., Lam N.T., Sukyai P. | 2020 | Sugar Tech, 22(2), pp. 328-339 | 13 |
| 39 | Biological Characterization and Quantification of Rambutan (Nephelium lappaceum L.) Peel Extract as a Potential Source of Valuable Minerals and Ellagitannins for Industrial Applications | Torgbo S., Rugthaworn P., Sukatta U., Sukyai P. | 2022 | ACS Omega | 13 |
| 40 | Sugarcane bagasse cellulose-based scaffolds incorporated hydroxyapatite for promoting proliferation, adhesion and differentiation of osteoblasts | Sriwong C., Boonrungsiman S., Sukyai P. | 2023 | Industrial Crops and Products, 192, 115979 | 13 |
| 41 | Sugarcane Bagasse-Derived Cellulose Nanocrystal/Polyvinyl Alcohol/Gum Tragacanth Composite Film Incorporated with Betel Leaf Extract as a Versatile Biomaterial for Wound Dressing | Diem L.N., Torgbo S., Banerjee I., Pal K., Sukatta U., Rugthaworn P., Sukyai P. | 2023 | International Journal of Biomaterials, 2023, 9630168 | 13 |
| 42 | Simulated elephant colon for cellulose extraction from sugarcane bagasse: An effective pretreatment to reduce chemical use | Sriwong C., Sukyai P. | 2022 | Science of the Total Environment, 835, 155281 | 12 |
| 43 | Filter cake-derived calcium carbonate polymorphs from sugar refinery for hydroxyapatite production as a sustainable material for biomedical application | Buer Boyetey M.J., Torgbo S., Sukyai P., Watthanasakphuban N., Kamonsutthipaijit N. | 2023 | Ceramics International | 12 |
| 44 | Cellulose nanocrystals as sustainable material for enhanced painting efficiency of watercolor paint | Imchalee N., Meesupthong R., Torgbo S., Sukyai P. | 2021 | Surfaces and Interfaces, 27, 101570 | 12 |
| 45 | Bacterial cellulose modification using static magnetic field | Quan V.M., Li B., Sukyai P. | 2020 | Cellulose, 27(10), pp. 5581-5596 | 12 |
| 46 | Purification and Immobilization of Superoxide Dismutase Obtained from Saccharomyces cerevisiae TBRC657 on Bacterial Cellulose and Its Protective Effect against Oxidative Damage in Fibroblasts | Pinmanee P., Pinmanee P., Sompinit K., Jantimaporn A., Khongkow M., Haltrich D., Nimchua T., Sukyai P. | 2023 | Biomolecules, 13(7), 1156 | 10 |
| 47 | Recycling of Nanocellulose from Polyester–Cotton Textile Waste for Modification of Film Composites | Srichola P., Witthayolankowit K., Sukyai P., Sampoompuang C., Lobyam K., Kampakun P., Toomtong R. | 2023 | Polymers, 15(15), 3324 | 10 |
| 48 | Evaluation of carbon sources from sugar industry to bacterial nanocellulose produced by Komagataeibacter xylinus | Jaroennonthasit W., Lam N.T., Sukyai P. | 2021 | International Journal of Biological Macromolecules, 191, pp. 299-304 | 9 |
| 49 | Enhanced antimicrobial effectiveness of synergistic mixtures of rambutan peel extract and cinnamon essential oil on food spoilage bacteria and bio-based food packaging | Khanoonkon N., Rugthaworn P., Kongsin K., Sukyai P., Harnkarnsujarit N., Sothornvit R., Chollakup R., Sukatta U. | 2022 | Journal of Food Safety, e12976 | 8 |
| 50 | Enhancing the Productivity and Stability of Superoxide Dismutase from Saccharomyces cerevisiae TBRC657 and Its Application as a Free Radical Scavenger | Pinmanee P., Pinmanee P., Sompinit K., Arnthong J., Suwannarangsee S., Jantimaporn A., Khongkow M., Nimchua T., Sukyai P. | 2022 | Fermentation, 8(4), 169 | 8 |
| 51 | Assessment of Electrothermal Pretreatment of Rambutan (Nephelium lappaceum L.) Peels for Producing Cellulose Fibers | Torgbo S., Sukyai P., Khantayanuwong S., Puangsin B., Srichola P., Sukatta U., Kamonpatana P., Beaumont M., Rosenau T. | 2022 | ACS Omega | 8 |
| 52 | Prediction on the stability of spray-dried Lactobacillus reuteri KUB-AC5 by Arrhenius equation for long-term storage | Korakoch H., Sukyai P., Loiseau G., Nitisinprasert S., Montet D., Wanchaitanawong P. | 2005 | Journal of Microbiology and Biotechnology, 15(6), pp. 1178-1182 | 8 |
| 53 | The Effect of Hydroxyapatite Prepared by In Situ Synthesis on the Properties of Poly(Vinyl Alcohol)/Cellulose Nanocrystals Biomaterial | Panyasiri P., Lam N.T., Sukyai P. | 2020 | Journal of Polymers and the Environment, 28(1), pp. 141-151 | 7 |
| 54 | Chemical composition of alkaline-pretreated sugarcane bagasse and its effects on the physicochemical characteristics of fat-replaced sausage | Sompugdee C., Sompugdee C., Quan V.M., Sriroth K., Sukyai P. | 2021 | International Journal of Food Science and Technology | 6 |
| 55 | Cellulose fibers and ellagitannin-rich extractives from rambutan (Nephelium Lappaceum L.) peel by an eco-friendly approach | Torgbo S., Sukyai P., Sukatta U., B?hmdorfer S., Beaumont M., Rosenau T. | 2024 | International Journal of Biological Macromolecules, 259, 128857 | 6 |
| 56 | Fabrication and Characterization of a Polydopamine-Modified Bacterial Cellulose and Sugarcane Filter Cake-Derived Hydroxyapatite Composite Scaffold | Boyetey M.J.B., Sukyai P., Kamonsutthipaijit N., Nijpanich S., Chanlek N. | 2023 | ACS Omega | 4 |
| 57 | Structure Features of Sugarcane Bagasse Under Ultrasonic With Xylanase and Laccase Treatment | Amornnopparattanakul N., Yingkamhaeng N., Meesupthong R., Pinmanee P., Pinmanee P., Suwanprateep J., Nimchua T., Sukyai P. | 2023 | Sugar Tech | 4 |
| 58 | Ultrasonic Irradiation Enables Facile Production of Lovastatin from Sugar Cane Bagasse | Rugthaworn P., Sukatta U., Sukyai P. | 2022 | ACS Omega, 7(16), pp. 13455-13464 | 3 |
| 59 | Valorization of rambutan (Naphelium lappaceum L.) peel: an enzymatic approach toward a biopolymer absorbent foam | Torgbo S., Sukyai P., Sukatta U., Rojviriya C., Kamonsutthipaijit N. | 2024 | Cellulose | 3 |
| 60 | Integrating Cellulose Microfibrils and Ellagitannins from Rambutan Peel with Gelatin for Production of Synergistic Biobased Hydrogels | Torgbo S., Sukyai P., Sukatta U., Kamonsutthipaijit N., Beaumont M., Rosenau T. | 2024 | Biomacromolecules | 3 |
| 61 | Post-harvest deterioration of green billeted and green whole stalk sugarcane in Northeast Thailand | Mueangmontri R., Mueangmontri R., Chapanya P., Chapanya P., Pattamasuwan A., Pattamasuwan A., Sriroth K., Sukyai P. | 2020 | International Journal of Postharvest Technology and Innovation, 7(1), pp. 29-41 | 3 |
| 62 | Microcrystalline Cellulose Isolation and Impregnation with Sappan Wood Extracts as Antioxidant Dietary Fiber for Bread Preparation | Homyuen A., Vanitjinda G., Yingkamhaeng N., Sukyai P. | 2023 | ACS Omega | 2 |
| 63 | The effect of Thai compost on biodegradability of polylactic acid based on ISO 14855-2 method | Timbuntam W., Pongsomnam S., Vanichsriratana W., Sukyai P. | 2012 | Advanced Materials Research, 415-417, pp. 2184-2190 | 1 |
| 64 | Isolation and utilization of lignin-containing nanocellulose as a bio-based coating for preserving perishable fruit | Quan V.M., Somboonsub P., Kongsin K., Li B., Sukyai P. | 2024 | Industrial Crops and Products, 222, 119597 | 0 |
| 65 | In situ preparation of bacterial cellulose/hydroxyapatite scaffold in colloidal culture media containing gum tragacanth | Quan V.M., Torgbo S., Kamonsutthipaijit N., Sukyai P. | 2024 | Cellulose | 0 |
| 66 | Enhancing antibacterial characteristics of paper through silver-exchanged zeolite coating for packaging paper | Wanitpinyo K., Nanta K., Chitbanyong K., Pisutpiched S., Khantayanuwong S., Yimlamai P., Sukyai P., Puangsin B. | 2024 | Journal of Coatings Technology and Research, 101577 | 0 |
| 67 | Green extraction and isolation of cellulose nanofibrils from orchid (Dendrobium sonia earsakul) stem for wound dressing application | Usawattanakul N., Chaisirijaroenpun N., Sukyai P., Sukatta U., Watthanasakphuban N., Nimchua T., Pakawanit P., Kamonsutthipaijit N., Torgbo S. | 2025 | OpenNano, 22, 100229 | 0 |
| 68 | Efficient extraction of lignin-rich nanofibers from rambutan peel using a two-step delignification process | Torgbo S., Sukyai P., Sukatta U., Beaumont M., Rosenau T. | 2025 | Cellulose, 117115 | 0 |