# | Document title | Authors | Year | Source | Cited by |
1 | Starch nanocomposites reinforced with TEMPO-oxidized cellulose nanofibrils derived from bamboo holocellulose | Pitiphatharaworachot S., Chitbanyong K., Sungkaew S., Pisutpiched S., Khantayanuwong S., Puangsin B. | 2019 | BioResources 14(2),pp. 2784-2797 | 13 |
2 | Characterization of bamboo nanocellulose prepared by TEMPO-mediated oxidation | Chitbanyong K., Pitiphatharaworachot S., Pisutpiched S., Khantayanuwong S., Puangsin B. | 2018 | BioResources 13(2),pp. 4440-4454 | 13 |
3 | TEMPO-oxidized cellulose nanofibril film from nano-structured bacterial cellulose derived from the recently developed thermotolerant Komagataeibacter xylinus C30 and Komagataeibacter oboediens R37–9 strains | Chitbanyong K., Pisutpiched S., Khantayanuwong S., Theeragool G., Puangsin B. | 2020 | International Journal of Biological Macromolecules 163,pp. 1908-1914 | 12 |
4 | Basalt-fiber-reinforced polyvinyl acetate resin: A coating for ductile plywood panels | Kramár S., Trcala M., Chitbanyong K., Král P., Puangsin B. | 2020 | Materials 13(1),pp. 49 | 11 |
5 | 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) | 11 |
6 | Molar masses and molar mass distributions of commercial regenerated cellulose materials and softwood dissolving pulp determined by SEC/MALLS | Ono Y., Hou G., Chitbanyong K., Takeuchi M., Isogai A. | 2023 | Cellulose
| 5 |
7 | Natural fibers derived from coi (streblus asper Lour.) and their behavior in pulping and as paper | Boonpitaksakul W., Chitbanyong K., Puangsin B., Pisutpiched S., Khantayanuwong S. | 2019 | BioResources 14(3),pp. 6411-6420 | 5 |
8 | Physical Properties of Handsheets Derived from Coi (Streblus asper Lour.) Pulp Fiber as Papermaking Material Traced from Ancient Times | Khantayanuwong S., Boonpitaksakul W., Chitbanyong K., Pisutpiched S., Puangsin B. | 2021 | BioResources 16(3),pp. 6201-6211 | 4 |
9 | Comprehensive Study of Preparation of Carboxy Group-Containing Cellulose Fibers from Dry-Lap Kraft Pulps by Catalytic Oxidation with Solid NaOCl | Hou G., Chitbanyong K., Takeuchi M., Shibata I., Isogai A. | 2023 | ACS Sustainable Chemistry and Engineering
| 4 |
10 | Utilization of hemp stalk as a potential resource for bioenergy | Chaowana P., Hnoocham W., Chaiprapat S., Yimlamai P., Chitbanyong K., Wanitpinyo K., Chaisan T., Paopun Y., Pisutpiched S., Khantayanuwong S., Puangsin B. | 2024 | Materials Science for Energy Technologies 7,pp. 19-28 | 3 |
11 | Silver-nanoparticle-containing handsheets for antimicrobial applications | Puangsin B., Chitbanyong K., Yimlamai P., Khantayanuwong S., Pisutpiched S., Isogai A. | 2022 | Cellulose
| 1 |
12 | Morphology, Taxonomy, Culm Internode and Leaf Anatomy, and Palynology of the Giant Reed (Arundo donax L.), Poaceae, Growing in Thailand | Ngernsaengsaruay C., Puangsin B., Leksungnoen N., Khantayanuwong S., Chanton P., Thaepthup T., Wessapak P., Meeboonya R., Yimlamai P., Wanitpinyo K., Chitbanyong K., Andriyas T., Banjatammanon N. | 2023 | Plants 12(9) | 0 |
13 | Polyglucuronic acids prepared from α-(1 → 3)-glucan by TEMPO-catalytic oxidation | Chitbanyong K., Hou G., Shibata I., Takeuchi M., Kimura S., Isogai A. | 2024 | Carbohydrate Polymers 330 | 0 |
14 | Properties of mixture of hemp bast and softwood pulp for filter paper manufacture | Yimlamai P., Chitbanyong K., Wanitpinyo K., Puangsin B., Nanta K., Khantayanuwong S., Pisutpiched S., Chaisan T., Fei B., Hiziroglu S. | 2024 | Heliyon 10(3) | 0 |
15 | Structural analyses of supernatant fractions in TEMPO-oxidized pulp/water reaction mixtures separated by centrifugation and dialysis | Hou G., Chitbanyong K., Shibata I., Takeuchi M., Isogai A. | 2024 | Carbohydrate Polymers 336 | 0 |