| # | 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 | 158 |
| 2 | Mussel-inspired hydrogels for biomedical and environmental applications | Li L., Smitthipong W., Zeng H. | 2015 | Polymer Chemistry
6(3),pp. 353-358 | 131 |
| 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 | 37 |
| 4 | 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 | 28 |
| 5 | 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 | 28 |
| 6 | 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 | 27 |
| 7 | 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 | 24 |
| 8 | 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 | 23 |
| 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 | 22 |
| 10 | 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 | 21 |
| 11 | 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 | 16 |
| 12 | 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 | 11 |
| 13 | 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 | 11 |
| 14 | 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 | 11 |
| 15 | 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 | 10 |
| 16 | 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) | 8 |
| 17 | Chemical structure, thermal and mechanical properties of poly(nucleotide)-cationic amphiphile films | Chollakup R., Smitthipong W. | 2012 | Polymer Chemistry
3(9),pp. 2350-2354 | 8 |
| 18 | Supramolecular materials comprising nucleic acid biopolymers | Smitthipong W., Neumann T., Chworos A., Jaeger L., Tirrell M. | 2008 | Macromolecular Symposia
264(1),pp. 13-17 | 8 |
| 19 | 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) | 7 |
| 20 | Specific interaction of DNA-functionalized polymer colloids | Chollakup R., Smitthipong W., Chworos A. | 2010 | Polymer Chemistry
1(5),pp. 658-662 | 7 |
| 21 | Recent progress in processing functionally graded polymer foams | Suethao S., Shah D.U., Smitthipong W., Smitthipong W., Smitthipong W. | 2020 | Materials
13(18) | 7 |
| 22 | 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 | 6 |
| 23 | 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 | 6 |
| 24 | 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) | 6 |
| 25 | 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 | 5 |
| 26 | Environmentally friendly coupling agents for natural fibre composites | Chollakup R., Smitthipong W., Suwanruji P. | 2012 | RSC Green Chemistry
1,pp. 161-182 | 5 |
| 27 | Supramolecular cooperative-assembly of polyelectrolyte films | Chollakup R., Smitthipong W., Chworos A., Chworos A. | 2013 | RSC Advances
3(14),pp. 4745-4749 | 5 |
| 28 | 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 | 5 |
| 29 | Effect of Stabilizer States (Solid Vs Liquid) on Properties of Stabilized Natural Rubbers | Promhuad K., Smitthipong W., Smitthipong W. | 2020 | Polymers
12(4) | 4 |
| 30 | 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 | 3 |
| 31 | 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 | 2 |
| 32 | 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) | 2 |
| 33 | 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 |
| 34 | 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 | 1 |
| 35 | 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 |
| 36 | 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) | 1 |
| 37 | Study of rubber/calcium carbonate composites | Phuhiangpa N., Phongphanphanee S., Smitthipong W., Smitthipong W. | 2020 | IOP Conference Series: Materials Science and Engineering
773(1) | 1 |
| 38 | 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) | 0 |
| 39 | Evolution of mulbery and non-mulberry silk fibers for textile applications | Chollakup R., Smitthipong W. | 2012 | Silk: Properties, Production and Uses
,pp. 41-86 | 0 |
| 40 | 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) | 0 |
| 41 | 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 | 0 |
| 42 | 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) | 0 |
| 43 | 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 |
| 44 | 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) | 0 |