ผู้ช่วยศาสตราจารย์ ดร.วันชัย เลิศวิจิตรจรัส

• Ph.D. (Polymer Science) The Petroleum and Petrochemical College Chulalongkorn University, Thailand (2003)
• วท.บ. (เทคโนโลยีวัสดุ) เกียรตินิยมอันดับ 1 มหาวิทยาลัยศิลปากร (2539)

สาขาที่เชี่ยวชาญ 

• Polymer Rheology
• Polymer Blend and Multiphase Polymer
• Bio-based and Biodegradable Polymer 

E-mail, เบอร์ติดต่อ
     Lerdwijitjarud _W@su.ac.th, 034-270510-2 ext. 209708

ผลงานทางวิชาการ

บทความ: Google Scholar 

วารสารวิชาการ

1. Rotjanasuworapong, K., Lerdwijitjarud, W., and Sirivat, A. (2023). “Dual electro- and magneto-induced bending actuators of magnetite-loaded agarose ionogels” Carbohydrate Polymers 310, (June 15): 120741. (Scopus)
2. Rotjanasuworapong, K., Thummarungsan, N., Lerdwijitjarud, W., and Sirivat, A. (2022). “Electromechanical responses of agarose ionogels as highly soft and compliant actuators” European Polymer Journal 167, (March 2022): 111059. (Scopus)
3. Sermsook, N., Thummarungsan, N., Rotjanasuworapong, K., Lerdwijitjarud, W., and Sirivat, A. (2022). “Fabrication and testing of functionalized multi-walled carbon nanotubes/deproteinized natural rubber composites for bending actuation under electric field” Sensors and Actuators A: Physical 344, (September 2022): 113762. (Scopus)
4. Rotjanasuworapong, K., Lerdwijitjarud, W., and Sirivat, A. (2021). “Synthesis and characterization of fe₈mn_0.2 fe₂ o₄ ferrite nanoparticle with high saturation magnetization via the surfactant assisted co-precipitation” Nanomaterials 11(4): 876. (ISI) (Scopus)
5. Rotjanasuworapong, K., Thummarungsan, N., Lerdwijitjarud, W., and Sirivat, A. (2020). “Facile formation of agarose hydrogel and electromechanical responses as electro-responsive hydrogel materials in actuator applications” Carbohydrate Polymers 247, (November 2020):1-11. (ISI) (Scopus)
6. Saeaeh, K., Thummarungsan, N., Paradee, N., Choeichom, P., Phasuksom, K., Lerdwijitjarud, W., and Sirivat, A. (2019). “Soft and highly responsive multi-walled carbon nanotube/pullulan hydrogel composites as electroactive materials” EUROPEAN POLYMER JOURNAL 120 (NOV 2019): Article Number: UNSP 109231 DOI: 10.1016/j.eurpolymj.2019.109231 (ISI) (Scopus)
7. Kongkaew, W., Sangwan, W., Lerdwijitjarud, W., and Sirivat, A. (2018). “Soft poly(2-chloroaniline)/pectin hydrogel and its electromechanical properties” JOURNAL OF BIOMATERIALS APPLICATIONS 32(6), (JAN 2018): 788-799. DOI: 10.1177/0885328217739457 (ISI) (Scopus)
8. Tanusorn, N., Thummarungsan, N., Sangwan, W., Lerdwijitjarud, W., and Sirivat, A. (2018). “Influence of carrageenan molecular structures on electromechanical behaviours of poly(3-hexylthiophene)/carrageenan conductive hydrogels” INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES 118, (OCT 15 2018) : 2098-2107. DOI: 10.1016/j.ijbiomac.2018.07.066 (ISI) (Scopus)
9. Charoonrak, N., Tungkavet, T., Sirivat, A. and Lerdwijitjarud, W. (2016). “Poly(p-phenylene)/crosslinked poly(e-caprolactone) blends as highly electroactive materials” Materials Chemistry and Physics 171, (MAR 1): 359-366. (ISI)
10. Sangwan, W., Petcharoen, K., Paradee, N., Lerdwijitjarud, W. and Sirivat, A. (2016). “Electrically responsive materials based on polycarbazole/sodium alginate hydrogel blend for soft and flexible actuator application” Carbohydrate Polymers 151, (OCT 20): 213-222. (ISI) (Scopus)
11. Ekabutr, P., Lerdwijitjarud, W., and Sittattrakul, A. (2013). “Glycerol and Esterified Products of Palmitic Acid as a Mixed Plasticizer for Thermoplastic Tapioca Starch” Polymer Engineering and Science: 134-145.
12. Supattarasakda, K., Petcharoen, K., Permpool, T., Sirivat, A., and Lerdwijitjarud, W. (2013). “Control of Hematite Nanoparticle Size and Shape by the Chemical Precipitation Method” POWDER TECHNOLOGY 249: 353-359.
13. Intanoo, P., Sirivat, A., Kunanuruksapong, R., Lerdwijitjarud, W., and Kunchornsup, W. (2012). “Electroactive Polymer Actuator from Highly Doped Permethylpolyazine Dispersed in Ethylene Propylene Diene Elastomer” JOURNAL OF POLYMER RESEARCH 19(10), article no.9981: 1-10.
14. Hachawee, K., Lerdwijitjarud, W., Sittattrakul, A., and Sirivat A. (2008). “Structural effect of ferrocenecarboxymethylated polymers on their electrical behavior under the exposure to methanol and acetone vapors”  Materials Science and Engineering B 153: 10-20.