| # | Document title | Authors | Year | Source | Cited by |
| 1 | Phase behavior and coacervation of aqueous poly(acrylic acid)-poly(allylamine) solutions | Chollakup R., Chollakup R., Smitthipong W., Smitthipong W., Eisenbach C., Eisenbach C., Tirrell M., Tirrell M. | 2010 | Macromolecules,
43(5), pp. 2518-2528 | 239 |
| 2 | Mussel-inspired hydrogels for biomedical and environmental applications | Li L., Smitthipong W., Zeng H. | 2015 | Polymer Chemistry,
6(3), pp. 353-358 | 194 |
| 3 | 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 | 82 |
| 4 | 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 | 74 |
| 5 | Non‐Covalent Interaction on the Self‐Healing of Mechanical Properties in Supramolecular Polymers | Buaksuntear K., Limarun P., Suethao S., Smitthipong W., Smitthipong W. | 2022 | International Journal of Molecular Sciences,
23(13), 6902 | 67 |
| 6 | Interesting green elastomeric composites: Silk textile reinforced natural rubber | Smitthipong W., Smitthipong W., Suethao S., Shah D., Vollrath F. | 2016 | Polymer Testing,
55, pp. 17-24 | 58 |
| 7 | Recent progress in processing functionally graded polymer foams | Suethao S., Shah D.U., Smitthipong W., Smitthipong W., Smitthipong W. | 2020 | Materials,
13(18), 4060 | 54 |
| 8 | Study of tack properties of uncrosslinked natural rubber | Smitthipong W., Nardin M., Schultz J., Nipithakul T., Suchiva K. | 2004 | Journal of Adhesion Science and Technology,
18(12), pp. 1449-1463 | 44 |
| 9 | Polyethylene green composites reinforced with cellulose fibers (coir and palm fibers): Effect of fiber surface treatment and fiber content | Chollakup R., Smitthipong W., Kongtud W., Tantatherdtam R. | 2013 | Journal of Adhesion Science and Technology,
27(12), pp. 1290-1300 | 43 |
| 10 | Effect of pineapple leaf fiber-reinforced thermoplastic starch/poly(lactic acid) green composite: Mechanical, viscosity, and water resistance properties | Smitthipong W., Tantatherdtam R., Chollakup R. | 2015 | Journal of Thermoplastic Composite Materials,
28(5), pp. 717-729 | 38 |
| 11 | Noncovalent sericin-chitosan scaffold: Physical properties and low cytotoxicity effect | Chollakup R., Uttayarat P., Chworos A., Smitthipong W., Smitthipong W. | 2020 | International Journal of Molecular Sciences,
21(3), 775 | 36 |
| 12 | Modification of pineapple leaf fiber surfaces with silane and isocyanate for reinforcing thermoplastic | Suwanruji P., Tuechart T., Smitthipong W., Chollakup R. | 2017 | Journal of Thermoplastic Composite Materials,
30(10), pp. 1344-1360 | 36 |
| 13 | Performance of nano-and microcalcium carbonate in uncrosslinked natural rubber composites: New results of structure–properties relationship | Phuhiangpa N., Ponloa W., Phongphanphanee S., Smitthipong W., Smitthipong W., Smitthipong W. | 2020 | Polymers,
12(9), pp. 1-15, 2002 | 36 |
| 14 | Effect of fillers on the recovery of rubber foam: From theory to applications | Prasopdee T., Smitthipong W., Smitthipong W., Smitthipong W. | 2020 | Polymers,
12(11), pp. 1-17, 2745 | 34 |
| 15 | Adhesion and self-adhesion of rubbers, crosslinked by electron beam irradiation | Smitthipong W., Nardin M., Schultz J., Suchiva K. | 2007 | International Journal of Adhesion and Adhesives,
27(5), pp. 352-357 | 34 |
| 16 | The relationship between the morphology and elasticity of natural rubber foam based on the concentration of the chemical blowing agent | Suethao S., Phongphanphanee S., Wong-Ekkabut J., Smitthipong W., Smitthipong W. | 2021 | Polymers,
13(7), 1091 | 30 |
| 17 | Foam rubber from centrifuged and creamed latex | Suksup R., Sun Y., Sukatta U., Smitthipong W. | 2019 | Journal of Polymer Engineering,
39(4), pp. 336-342 | 29 |
| 18 | Enhancing mechanical properties and stabilising the structure of epoxide natural rubber using non-covalent interactions: Metal–ligand coordination and hydrogen bonding | Buaksuntear K., Panmanee K., Wongphul K., Lim-arun P., Jansinak S., Shah D.U., Smitthipong W., Smitthipong W. | 2024 | Polymer,
291, 126626 | 28 |
| 19 | Natural Fiber Composites: Review of Recent Automotive Trends | Witayakran S., Smitthipong W., Wangpradid R., Chollakup R., Clouston P.L. | 2020 | Encyclopedia of Renewable and Sustainable Materials: Volume 1-5,
1-5, pp. 166-174 | 27 |
| 20 | New approach on structure-property relationships of stabilized natural rubbers | Chollakup R., Suwanruji P., Tantatherdtam R., Smitthipong W., Smitthipong W. | 2019 | Journal of Polymer Research,
26(2), 37 | 27 |
| 21 | Effect of non-rubber components on properties of sulphur crosslinked natural rubbers | Smitthipong W., Tantatherdtam R., Rungsanthien K., Suwanruji P., Sriroth K., Radabutra S., Thanawan S., Vallat M., Nardin M., Mougin K., Chollakup R. | 2014 | Advanced Materials Research,
844, pp. 345-348 | 23 |
| 22 | Cream concentrated latex for foam rubber products | Suksup R., Imkaew C., Smitthipong W., Smitthipong W. | 2017 | IOP Conference Series: Materials Science and Engineering,
272(1), 012025 | 22 |
| 23 | Noncovalent self-assembling nucleic acid-lipid based materials | Smitthipong W., Neumann T., Gajria S., Li Y., Chworos A., Jaeger L., Tirrell M. | 2009 | Biomacromolecules,
10(2), pp. 221-228 | 22 |
| 24 | Adhesion and self-adhesion of immiscible rubber blends | Smitthipong W., Nardin M., Schultz J., Suchiva K. | 2009 | International Journal of Adhesion and Adhesives,
29(3), pp. 253-258 | 21 |
| 25 | Prospects for rambutan peel extract as natural antioxidant on the aging properties of vulcanized natural rubber | Sukatta U., Rugthaworn P., Seangyen W., Tantaterdtam R., Smitthipong W., Chollakup R. | 2021 | SPE Polymers,
2(3), pp. 199-209 | 18 |
| 26 | Effect of Stabilizer States (Solid Vs Liquid) on Properties of Stabilized Natural Rubbers | Promhuad K., Smitthipong W., Smitthipong W. | 2020 | Polymers,
12(4), 741 | 17 |
| 27 | Development of oil palm empty fruit bunch fiber reinforced epoxy composites for bumper beam in automobile | Witayakran S., Kongtud W., Boonyarit J., Smitthipong W., Chollakup R. | 2017 | Key Engineering Materials,
751 KEM, pp. 779-784 | 17 |
| 28 | The albumin/starch scaffold and its biocompatibility with living cells | Prasopdee T., Sinthuvanich C., Chollakup R., Uttayarat P., Smitthipong W., Smitthipong W., Smitthipong W. | 2021 | Materials Today Communications,
27, 102164 | 16 |
| 29 | 3D Raman images of rubber blends (IR-HNBR) | Smitthipong W., Gadiou R., Vidal L., Wagner P., Nardin M. | 2008 | Vibrational Spectroscopy,
46(1), pp. 8-13 | 15 |
| 30 | DNA:chitosan complex, known as a drug delivery system, can create a porous scaffold | Pakornpadungsit P., Prasopdee T., Swainson N.M., Chworos A., Smitthipong W., Smitthipong W. | 2020 | Polymer Testing,
83, 106333 | 14 |
| 31 | Current challenges in thermodynamic aspects of rubber foam | Suethao S., Ponloa W., Phongphanphanee S., Wong-Ekkabut J., Smitthipong W., Smitthipong W., Smitthipong W. | 2021 | Scientific Reports,
11(1), 6097 | 14 |
| 32 | Recent Developments in Shape Memory Elastomers for Biotechnology Applications | Suethao S., Prasopdee T., Buaksuntear K., Shah D.U., Smitthipong W., Smitthipong W. | 2022 | Polymers,
14(16), 3276 | 13 |
| 33 | Crosslinked Natural Rubber and Styrene Butadiene Rubber Blends/Carbon Black Composites for Self-healable and Energy-saved Applications | Julbust A., Buaksuntear K., Suethao S., Suethao S., Kohl P., Li Y., Smitthipong W., Smitthipong W. | 2024 | Chinese Journal of Polymer Science (English Edition) | 13 |
| 34 | Study of rubber/calcium carbonate composites | Phuhiangpa N., Phongphanphanee S., Smitthipong W., Smitthipong W. | 2020 | IOP Conference Series: Materials Science and Engineering,
773(1), 012013 | 12 |
| 35 | Self-assembly nucleic acid-based biopolymers: learn from the nature | Pakornpadungsit P., Smitthipong W., Smitthipong W., Chworos A. | 2018 | Journal of Polymer Research,
25(2), 45 | 12 |
| 36 | Environmentally friendly coupling agents for natural fibre composites | Chollakup R., Smitthipong W., Suwanruji P. | 2012 | RSC Green Chemistry,
1, pp. 161-182 | 11 |
| 37 | Chemical structure, thermal and mechanical properties of poly(nucleotide)-cationic amphiphile films | Chollakup R., Smitthipong W. | 2012 | Polymer Chemistry,
3(9), pp. 2350-2354 | 11 |
| 38 | Approaches toward High Resilience Rubber Foams: Morphology–Mechanics–Thermodynamics Relationships | Prasopdee T., Shah D.U., Smitthipong W., Smitthipong W. | 2021 | Macromolecular Materials and Engineering,
2100337 | 11 |
| 39 | Improvement of Carbon Black Dispersion in Mussel-Inspired Composites from Epoxidized Natural Rubber Using Aromatic Interactions | Buaksuntear K., Kohl P., Li Y., Smitthipong W., Smitthipong W. | 2025 | ACS Applied Polymer Materials,
7(6), pp. 3576-3587 | 11 |
| 40 | Supramolecular materials comprising nucleic acid biopolymers | Smitthipong W., Neumann T., Chworos A., Jaeger L., Tirrell M. | 2008 | Macromolecular Symposia,
264(1), pp. 13-17 | 9 |
| 41 | Specific interaction of DNA-functionalized polymer colloids | Chollakup R., Smitthipong W., Chworos A. | 2010 | Polymer Chemistry,
1(5), pp. 658-662 | 7 |
| 42 | Influence of non-rubber components on NR surface modification by chlorination | Vallat M., Radabutra S., Radabutra S., Thanawan S., Bresson B., Chollakup R., Rungsanthien K., Suwanruji P., Sriroth K., Smitthipong W., Mougin K. | 2014 | Advanced Materials Research,
844, pp. 369-372 | 7 |
| 43 | Effect of furfural on the properties of natural latex: Possibility for adhesive application | Vaithanomsat P., Janchai P., Punsuvon V., Smitthipong W., Smitthipong W. | 2017 | Rubber Chemistry and Technology,
90(4), pp. 642-650 | 6 |
| 44 | DNA-functionalized polystyrene particles and their controlled self-assembly | Chollakup R., Smitthipong W., Chworos A., Chworos A. | 2014 | RSC Advances,
4(58), pp. 30648-30653 | 6 |
| 45 | Sustainable use of fly ash waste in tire tread rubber: Characterization of physical properties and environmental impact assessment | Yangthong H., Udomsin P., Jansinak S., Suethao S., Suethao S., Goh K.L., Goh K.L., Smitthipong W., Smitthipong W. | 2025 | Waste Management,
200, 114737 | 6 |
| 46 | Waste material fly ash as an alternative filler for elastomers | Yangthong H., Buaksuntear K., Suethao S., Chworos A., Smitthipong W., Smitthipong W. | 2023 | Polymer Engineering and Science | 6 |
| 47 | A comparative study of surfactant-treated natural latex foam morphology, thermodynamic relationships and energy absorption: Talalay vs. dunlop processing | Tundiew N., Tundiew N., Kunklang P., Suethao S., Wong‑Ekkabut J., Mahujchariyawong J., Goh K.L., Goh K.L., Smitthipong W., Smitthipong W. | 2024 | Industrial Crops and Products,
216, 118631 | 5 |
| 48 | The effect of hydroxylamine sulfate on the storage hardening of natural rubber | Promhuad K., Smitthipong W., Smitthipong W. | 2020 | IOP Conference Series: Materials Science and Engineering,
773(1), 012012 | 5 |
| 49 | Effect of natural extract from waste corn meal on stabilization of natural rubber | Promhuad K., Prasopdee T., Smitthipong W., Smitthipong W., Smitthipong W. | 2021 | SPE Polymers,
2(3), pp. 172-178 | 5 |
| 50 | Supramolecular cooperative-assembly of polyelectrolyte films | Chollakup R., Smitthipong W., Chworos A., Chworos A. | 2013 | RSC Advances,
3(14), pp. 4745-4749 | 5 |
| 51 | An improved hybrid process for natural rubber foam manufacture combining the Dunlop/Blowing/Talalay methods | Buaksuntear K., Anantawut W., Kohl P., Li Y., Shah D.U., Smitthipong W., Smitthipong W. | 2025 | Polymer,
325, 128299 | 3 |
| 52 | Self-assembled materials containing complementary nucleobase molecular recognition | Smitthipong W., Chworos A., Lin B., Neumann T., Gajria S., Jaeger L., Tirrell M. | 2008 | Materials Research Society Symposium Proceedings,
1094, pp. 39-44 | 2 |
| 53 | Effect of tackifier resin and non-rubber components on adhesive property of natural latex | Prasopdee T., Sriroth K., Smitthipong W., Smitthipong W. | 2019 | IOP Conference Series: Materials Science and Engineering,
526(1), 012001 | 1 |
| 54 | Adhesion and heat build-up of rubber for energy-saved tyre | Suethao S., Smitthipong W., Smitthipong W. | 2019 | IOP Conference Series: Materials Science and Engineering,
526(1), 012011 | 1 |
| 55 | Effect of palm fiber on photo and Thermo-Degradation of polyethylene composites | Smitthipong W., Chollakup R., Chollakup R., Kongtad W., Delor-Jestin F. | 2014 | Kasetsart Journal - Natural Science,
48(6), pp. 908-915 | 1 |
| 56 | Evolution of mulbery and non-mulberry silk fibers for textile applications | Chollakup R., Smitthipong W. | 2012 | Silk: Properties, Production and Uses,
pp. 41-86 | 1 |
| 57 | Photostimulus-responsive Non-covalent Interactions in Polymers: A Review | Limarun P., Buaksuntear K., Jansrinak S., Julbust A., Phongphanphanee S., Yangthong H., Suethao S., Suethao S., Kaewpradit P., Jittham P., Sucharitpwatskul S., Mougin K., Spangenberg A., Le Duigou A., Smitthipong W., Smitthipong W. | 2025 | Chinese Journal of Polymer Science (English Edition) | 1 |
| 58 | Development of Sustainable Rubber Composites Reinforced with Silk Fabric for High-Performance Bicycle Tires: Material Characterization and Prototype Testing | Choosang N., Choosang N., Phongphanphanee S., Buaksuntear K., Buaksuntear K., Suethao S., Suethao S., Trangadisaikul C., Mougin K., Spangenberg A., Le Duigou A., Shah D.U., Smitthipong W., Smitthipong W. | 2025 | ACS Omega,
10(30), pp. 33872-33884 | 0 |
| 59 | Recent Advancements in Masterbatch Filler Technology and Filler Dispersion for Rubber and Polymer Composites: A Review | Buaksuntear K., Choosang N., Choosang N., Mougin K., Spangenberg A., Le Duigou A., Smitthipong W., Smitthipong W. | 2025 | Polymer Engineering and Science | 0 |
| 60 | Special issue topic: Advanced rubber and polymer materials in agriculture and industry | Smitthipong W. | 2021 | SPE Polymers,
2(3), pp. 171 | 0 |
| 61 | Raman technique application for rubber blends characterization | Smitthipong W., Nardin M., Nardin M., Schultz J., Schultz J. | 2007 | Songklanakarin Journal of Science and Technology,
29(6), pp. 1609-1618 | 0 |