| Title | Author | Year | SCOPUS | PUBMED | ISI | TCI | |
|---|---|---|---|---|---|---|---|
| 1. | Nonfouling characteristics of dextran-containing surfaces | Martwiset, S. Koh, A.E. |
2006 | ||||
| 2. | Intrinsically conducting polymers and copolymers containing triazole moieties | Martwiset, S. | 2007 | ||||
| 3. | Proton conducting polymers containing 1H-1,2,3-triazole moieties | Martwiset, S. Thorn, M. Versek, C. |
2009 | ||||
| 4. | Particle capture via discrete binding elements: Systematic variations in binding energy for randomly distributed nanoscale surface features | Kalasin, S. Martwiset, S. |
2010 | ||||
| 5. | Enhancement of sensitivity of glucose sensors from alizarin-boronic acid adducts in aqueous micelles | Ngamdee, K. Noipa, T. Martwiset, S. Tuntulani, T. Ngeontae, W. |
2011 | ||||
| 6. | Enhancement of the fluorescence quenching efficiency of DPPH • on colloidal nanocrystalline quantum dots in aqueous micelles | Noipa, T. Martwiset, S. Butwong, N. Tuntulani, T. Ngeontae, W. |
2011 | ||||
| 7. | Electrospinning of poly(vinyl alcohol) and poly(4-styrenesulfonic acid) for fuel cell applications | Martwiset, S. Jaroensuk, K. |
2012 | ||||
| 8. | Selective fluorescence sensors for p-phenylenediamine using formyl boronate ester with an assistance of micelles | Ngamdee, K. Martwiset, S. Tuntulani, T. Ngeontae, W. |
2012 | ||||
| 9. | Grafting of poly(vinyl alcohol) on natural rubber latex particles | Wongthep, W. Srituileong, S. Martwiset, S. Amnuaypanich, S. |
2013 | ||||
| 10. | Pyrene-doped electrospun PMMA-PVC fibers for ferric ion detection | Martwiset, S. Nijpanich, S. Banturngsaksiri, A. Sriring, M. Pandhumas, T. Youngme, S. |
2013 | ||||
| 11. | Electrospun fibres from polyvinyl alcohol, poly(styrene sulphonic acid-co-maleic acid), and imidazole for proton exchange membranes | Boonpoo-Nga, R. Sriring, M. Nasomjai, P. Martwiset, S. |
2014 | ||||
| 12. | Enhancing performance of optical sensor through the introduction of polystyrene and porous structures | Panawong, C. Pandhumas, T. Youngme, S. Martwiset, S. |
2015 | ||||
| 13. | Polyacrylonitrile-based proton conducting membranes containing sulfonic acid and tetrazole moieties | Youngme, S. Martwiset, S. |
2017 | ||||
| 14. | Porous electrospun fibers as optical sensor for metal ion | Pandhumas, T. Panawong, C. Loiha, S. Martwiset, S. |
2017 | ||||
| 15. | Proton conducting membranes based on poly(acrylonitrile-co-styrene sulfonic acid) and imidazole | Martwiset, S. | 2017 | ||||
| 16. | Highly catalytic activity of nickel nanoparticles generated in poly(methylmethacrylate)@poly(2-hydroxyethylmethacrylate) (PMMA@PHEMA) core-shell micelles for the reduction of 4-nitrophenol (4-NP) | Martwiset, S. Amnuaypanich, S. |
2018 | ||||
| 17. | Imidazole-doped poly(Styrene sulfonic acid-co-vinyl imidazole)/polyvinyl alcohol blends as proton conducting membranes | Pandhumas, T. Panawong, C. Youngme, S. Martwiset, S. |
2018 | ||||
| 18. | Proton conducting composite membranes from crosslinked poly(vinyl alcohol) and poly(styrene sulfonic acid)-functionalized silica nanoparticles | Youngme, S. Martwiset, S. |
2018 | ||||
| 19. | Synthesis and characterization of poly(styrene sulfonic acid-co-1-vinylimidazole-co-styrene) and its blends with poly(vinyl chloride) as proton conducting membranes | Panawong, C. Martwiset, S. |
2018 | ||||
| 20. | Sensitive 2,4-dinitrotoluene fluorescence sensors based on porous electrospun fibres and porous membranes | Pimpaka Putthithanad Tidapa Rattanaumpa Thidarat Pandhumas Surangkhana Budsombat |
2019 | ||||
| 21. | Composite polymer electrolyte membranes from semi-interpenetrating networks of poly(vinyl alcohol) and silica nanoparticles containing poly (2-acrylamido-2-methyl-1-propanesulfonic acid) | Thanakorn Sangthumchai Trin Kamjornsupamitr Sawarin Saengsaen Nuttapol Pumingdawn Chonnakarn Panawong Jitapa Sumranjit Surangkhana Budsombat |
2020 | ||||
| 22. | Composite proton conducting membranes from chitosan, poly(vinyl alcohol) and sulfonic acid-functionalized silica nanoparticles | Trin Kamjornsupamitr Thanakorn Sangthumchai Pranorm Saejueng Jitapa Sumranjit Andrew J. Hunt Surangkhana Budsombat |
2021 | ||||
| 23. | Composite proton conducting membranes from crosslinked poly(vinyl alcohol)/chitosan and silica particles containing poly(2-acrylamido-2-methyl-1-propansulfonic acid) | Chonnakarn Panawong Sawanya Tasarin Pranorm Saejueng Surangkhana Budsombat |
2021 | ||||
| 24. | Enhancement of proton conductivity of crosslinked poly(vinyl alcohol) through introduction of zeolitic imidazolate framework-8 and imidazole | Sawanya Tasarin Chonnakarn Panawong Jitapa Sumranjit Surangkhana Budsombat |
2021 | ||||
| 25. | Chitosan-grafted hydrogels for heavy metal ion adsorption and catalytic reduction of nitroaromatic pollutants and dyes. | Meetam, P Phonlakan, K Nijpanich, S Budsombat, S |
2023 | ||||
| 26. | Composite beads from chitosan and zeolitic imidazolate framework-8 for the adsorption and photocatalytic degradation of reactive red 141. | Phonlakan, K Khamsuk, B Soontonhong, N Panawong, C Kongseng, P Chantarak, S Budsombat, S |
2023 | ||||
| 27. | Poly(acrylic acid--2-acrylamido-2-methyl-1-propanesulfonic acid)-grafted chitosan hydrogels for effective adsorption and photocatalytic degradation of dyes. | Phonlakan, K Meetam, P Chonlaphak, R Kongseng, P Chantarak, S Budsombat, S |
2023 | ||||
| 28. | Co-adsorbed chitosan-grafted-poly(acrylic acid) hydrogel as peroxymonosulfate activator for effective dye degradation. | Phonlakan, K Pornsuwan, S Nijpanich, S Budsombat, S |
2024 | ||||
| 29. | Magnetic cobalt nanoparticles embedded in a carbonaceous hydrogel for the activation of peroxymonosulfate to degrade azo dyes and organic pollutants. | Phonlakan, K Nachaichot, A Nijpanich, S Pornsuwan, S Budsombat, S |
2024 | ||||
| 30. | Zeolitic imidazolate framework-67 in chitosan-grafted hydrogel as an effective catalyst for peroxymonosulfate activation to degrade antibiotics and dyes. | Nachaichot, A Phonlakan, K Nijpanich, S Pornsuwan, S Budsombat, S |
2024 | ||||
| 31. | Catalytic reduction of nitrophenols and dyes by HKUST-1/hydrogel composite. | Nachaichot, A Kenvised, O Choram, S Nijpanich, S Budsombat, S |
2025 | ||||
| 32. | Improving the efficiency of Cr(vi) reduction and adsorption by FeO using ZSM-5 zeolite support prepared through various methods. | Senamart, N Yingyuen, W Obrom, W Nanmong, T Budsombat, S Wittayakun, J Prayoonpokarach, S Loiha, S |
2025 | Count | 20 | 8 | 5 | 0 |
| Title | Authors | Year | Publication name | Cited count | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| < 2020 | 2021 | 2022 | 2023 | 2024 | 2025 | Total | ||||||
| 1. | Nonfouling characteristics of dextran-containing surfaces | Martwiset, S. Koh, A.E. |
2006 |
Langmuir 19 (22), pp. 8192-8196 |
||||||||
| 2. | Intrinsically conducting polymers and copolymers containing triazole moieties | Martwiset, S. | 2007 |
Solid State Ionics 23-24 (178), pp. 1398-1403 |
||||||||
| 3. | Proton conducting polymers containing 1H-1,2,3-triazole moieties | Martwiset, S. Thorn, M. Versek, C. |
2009 |
Journal of Polymer Science, Part A: Polymer Chemistry 1 (47), pp. 188-196 |
||||||||
| 4. | Particle capture via discrete binding elements: Systematic variations in binding energy for randomly distributed nanoscale surface features | Kalasin, S. Martwiset, S. |
2010 |
Langmuir 22 (26), pp. 16865-16870 |
||||||||
| 5. | Enhancement of sensitivity of glucose sensors from alizarin-boronic acid adducts in aqueous micelles | Ngamdee, K. Noipa, T. Martwiset, S. Tuntulani, T. Ngeontae, W. |
2011 |
Sensors and Actuators, B: Chemical 1 (160), pp. 129-138 |
||||||||
| 6. | Enhancement of the fluorescence quenching efficiency of DPPH • on colloidal nanocrystalline quantum dots in aqueous micelles | Noipa, T. Martwiset, S. Butwong, N. Tuntulani, T. Ngeontae, W. |
2011 |
Journal of Fluorescence 5 (21), pp. 1941-1949 |
||||||||
| 7. | Electrospinning of poly(vinyl alcohol) and poly(4-styrenesulfonic acid) for fuel cell applications | Martwiset, S. Jaroensuk, K. |
2012 |
Journal of Applied Polymer Science 3 (124), pp. 2594-2600 |
||||||||
| 8. | Selective fluorescence sensors for p-phenylenediamine using formyl boronate ester with an assistance of micelles | Ngamdee, K. Martwiset, S. Tuntulani, T. Ngeontae, W. |
2012 |
Sensors and Actuators, B: Chemical (173), pp. 682-691 |
||||||||
| 9. | Grafting of poly(vinyl alcohol) on natural rubber latex particles | Wongthep, W. Srituileong, S. Martwiset, S. Amnuaypanich, S. |
2013 |
Journal of Applied Polymer Science 1 (127), pp. 104-110 |
||||||||
| 10. | Pyrene-doped electrospun PMMA-PVC fibers for ferric ion detection | Martwiset, S. Nijpanich, S. Banturngsaksiri, A. Sriring, M. Pandhumas, T. Youngme, S. |
2013 |
Journal of Applied Polymer Science 5 (130), pp. 3205-3211 |
||||||||
| 11. | Electrospun fibres from polyvinyl alcohol, poly(styrene sulphonic acid-co-maleic acid), and imidazole for proton exchange membranes | Boonpoo-Nga, R. Sriring, M. Nasomjai, P. Martwiset, S. |
2014 |
ScienceAsia 3 (40), pp. 232-237 |
||||||||
| 12. | Enhancing performance of optical sensor through the introduction of polystyrene and porous structures | Panawong, C. Pandhumas, T. Youngme, S. Martwiset, S. |
2015 |
Journal of Applied Polymer Science 14 (132), pp. |
||||||||
| 13. | Polyacrylonitrile-based proton conducting membranes containing sulfonic acid and tetrazole moieties | Youngme, S. Martwiset, S. |
2017 |
Journal of Applied Polymer Science 41 (134), pp. |
||||||||
| 14. | Porous electrospun fibers as optical sensor for metal ion | Pandhumas, T. Panawong, C. Loiha, S. Martwiset, S. |
2017 |
Chiang Mai Journal of Science 4 (44), pp. 1704-1713 |
||||||||
| 15. | Proton conducting membranes based on poly(acrylonitrile-co-styrene sulfonic acid) and imidazole | Martwiset, S. | 2017 |
International Journal of Hydrogen Energy 10 (42), pp. 6918-6925 |
||||||||
| 16. | Highly catalytic activity of nickel nanoparticles generated in poly(methylmethacrylate)@poly(2-hydroxyethylmethacrylate) (PMMA@PHEMA) core-shell micelles for the reduction of 4-nitrophenol (4-NP) | Martwiset, S. Amnuaypanich, S. |
2018 |
Applied Nanoscience (Switzerland) 3 (8), pp. 475-488 |
||||||||
| 17. | Imidazole-doped poly(Styrene sulfonic acid-co-vinyl imidazole)/polyvinyl alcohol blends as proton conducting membranes | Pandhumas, T. Panawong, C. Youngme, S. Martwiset, S. |
2018 |
Chiang Mai Journal of Science 2 (45), pp. 1111-1121 |
||||||||
| 18. | Proton conducting composite membranes from crosslinked poly(vinyl alcohol) and poly(styrene sulfonic acid)-functionalized silica nanoparticles | Youngme, S. Martwiset, S. |
2018 |
International Journal of Hydrogen Energy 24 (43), pp. 11190-11201 |
||||||||
| 19. | Synthesis and characterization of poly(styrene sulfonic acid-co-1-vinylimidazole-co-styrene) and its blends with poly(vinyl chloride) as proton conducting membranes | Panawong, C. Martwiset, S. |
2018 |
Polymer Bulletin 9 (75), pp. 3843-3858 |
||||||||
| 20. | Sensitive 2,4-dinitrotoluene fluorescence sensors based on porous electrospun fibres and porous membranes | Pandhumas, T. Martwiset, S. |
2019 |
ScienceAsia 1 (45), pp. 36-42 |
||||||||
| Title | Authors | Year | Journal title | ||
|---|---|---|---|---|---|
| 1. | Poly(acrylic acid--2-acrylamido-2-methyl-1-propanesulfonic acid)-grafted chitosan hydrogels for effective adsorption and photocatalytic degradation of dyes. | Phonlakan, K Meetam, P Chonlaphak, R Kongseng, P Chantarak, S Budsombat, S |
2023 |
RSC advances 44 (13), pp. 31002-31016 |
|
| 2. | Chitosan-grafted hydrogels for heavy metal ion adsorption and catalytic reduction of nitroaromatic pollutants and dyes. | Meetam, P Phonlakan, K Nijpanich, S Budsombat, S |
2023 |
International journal of biological macromolecules (255), pp. 128261 |
|
| 3. | Composite beads from chitosan and zeolitic imidazolate framework-8 for the adsorption and photocatalytic degradation of reactive red 141. | Phonlakan, K Khamsuk, B Soontonhong, N Panawong, C Kongseng, P Chantarak, S Budsombat, S |
2023 |
RSC advances 18 (13), pp. 12295-12308 |
|
| 4. | Magnetic cobalt nanoparticles embedded in a carbonaceous hydrogel for the activation of peroxymonosulfate to degrade azo dyes and organic pollutants. | Phonlakan, K Nachaichot, A Nijpanich, S Pornsuwan, S Budsombat, S |
2024 |
Environmental science and pollution research international 59 (31), pp. 66667-66682 |
|
| 5. | Co-adsorbed chitosan-grafted-poly(acrylic acid) hydrogel as peroxymonosulfate activator for effective dye degradation. | Phonlakan, K Pornsuwan, S Nijpanich, S Budsombat, S |
2024 |
International journal of biological macromolecules (), pp. 130922 |
|
| 6. | Zeolitic imidazolate framework-67 in chitosan-grafted hydrogel as an effective catalyst for peroxymonosulfate activation to degrade antibiotics and dyes. | Nachaichot, A Phonlakan, K Nijpanich, S Pornsuwan, S Budsombat, S |
2024 |
RSC advances 48 (14), pp. 35628-35637 |
|
| 7. | Catalytic reduction of nitrophenols and dyes by HKUST-1/hydrogel composite. | Nachaichot, A Kenvised, O Choram, S Nijpanich, S Budsombat, S |
2025 |
RSC advances 9 (15), pp. 6974-6983 |
|
| 8. | Improving the efficiency of Cr(vi) reduction and adsorption by FeO using ZSM-5 zeolite support prepared through various methods. | Senamart, N Yingyuen, W Obrom, W Nanmong, T Budsombat, S Wittayakun, J Prayoonpokarach, S Loiha, S |
2025 |
RSC advances 8 (15), pp. 5808-5821 |
| Title | Authors | Year | Journal title | Cited count | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| < 2020 | 2021 | 2022 | 2023 | 2024 | 2025 | Total | ||||||
| 1. | Sensitive 2,4-dinitrotoluene fluorescence sensors based on porous electrospun fibres and porous membranes | Pimpaka Putthithanad Tidapa Rattanaumpa Thidarat Pandhumas Surangkhana Budsombat |
2019 |
SCIENCEASIA 1.0 (45.0), pp. 36.0-42.0 |
3 | 0 | 0 | 0 | 0 | 0 | 3 | |
| 2. | Composite polymer electrolyte membranes from semi-interpenetrating networks of poly(vinyl alcohol) and silica nanoparticles containing poly (2-acrylamido-2-methyl-1-propanesulfonic acid) | Thanakorn Sangthumchai Trin Kamjornsupamitr Sawarin Saengsaen Nuttapol Pumingdawn Chonnakarn Panawong Jitapa Sumranjit Surangkhana Budsombat |
2020 |
POLYMER (207.0), pp. |
5 | 0 | 0 | 0 | 0 | 0 | 5 | |
| 3. | Composite proton conducting membranes from chitosan, poly(vinyl alcohol) and sulfonic acid-functionalized silica nanoparticles | Trin Kamjornsupamitr Thanakorn Sangthumchai Pranorm Saejueng Jitapa Sumranjit Andrew J. Hunt Surangkhana Budsombat |
2021 |
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY 2.0 (46.0), pp. 2479.0-2490.0 |
4 | 0 | 0 | 0 | 0 | 0 | 4 | |
| 4. | Composite proton conducting membranes from chitosan, poly(vinyl alcohol) and sulfonic acid- functionalized silica nanoparticles | Trin Kamjornsupamitr Thanakorn Sangthumchai Pranorm Saejueng Jitapa Sumranjit Andrew J. Hunt Surangkhana Budsombat |
2021 |
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY 2.0 (46.0), pp. 2479.0-2490.0 |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 5. | Composite proton conducting membranes from crosslinked poly(vinyl alcohol)/chitosan and silica particles containing poly(2-acrylamido-2-methyl-1-propansulfonic acid) | Chonnakarn Panawong Sawanya Tasarin Pranorm Saejueng Surangkhana Budsombat |
2021 |
JOURNAL OF APPLIED POLYMER SCIENCE (), pp. |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 6. | Enhancement of proton conductivity of crosslinked poly(vinyl alcohol) through introduction of zeolitic imidazolate framework-8 and imidazole | Sawanya Tasarin Chonnakarn Panawong Jitapa Sumranjit Surangkhana Budsombat |
2021 |
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY 74.0 (46.0), pp. 36969.0-36981.0 |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| Title | Authors | Year | Journal title |
|---|
| Title | Authors | NRIIS type | Year | NRIIS Scholarship |
|---|