Asst. Prof. Dr. Vorrada Loryuenyong

วรดา

ผู้ช่วยศาสตราจารย์ ดร.วรดา หล่อยืนยง

  • Ph.D. (Materials Science and Engineering) University of Califonia-Berkeley, USA (2006)
  • M.S. (Materials Science and Engineering) University of California-Berkeley, USA (2002)
  • B.S. (Materials Science and Engineering) The Pennsylvania State University, USA (2000)

สาขาที่เชี่ยวชาญ 

  • เซลล์แสงอาทิตย์ชนิดสีย้อมไวแสง (Dye-sensitized solar cells)
  • ตัวเร่งปฏิกิริยาด้วยแสง (Photocatalysts)
  • กราฟีน (Graphene)
  • สารกึ่งตัวนำที่มีช่องว่างแถบพลังงานกว้าง (Wide-band gap semiconductors)
  • วัสดุนาโน (Nanomaterials)

E-mail, เบอร์ติดต่อ
     vorrada@gmail.com, 089-811-1748

ผลงานทางวิชาการ
วารสารวิชาการ

  1. Loryuenyong, V., Juikatu, P., Sirisukha, P., Kumleing, U., and Buasri, A. (2022). “The preparation of luminescent and reversible thermochromic Mn-doped Ca-Zn-Al-O inorganic materials” Journal of Asian Ceramic Societies 2022, (Jul 2022): doi.org/10.1080/21870764.2022.2094558
  2. Loryuenyong, V., and Buasri, A. (2021). “Preparation of Luminescent Glass Aggregates from Soda-Lime Waste Glass” International Journal of Photoenergy  20212021 : Article number 5951258
  3. Loryuenyong, V., Thongpon, P., Saudmalai, S., and Buasri, A. (2019). “The synthesis of 2D CH 3NH 3 PbI 3 perovskite films with tunable bandgaps by solution deposition route” International Journal of Photoenergy 2019, (2019) : Article number 7492453.
  4. Loryuenyong, V., Kulchartchai, P., Audomcharoensak, P., Jeyakom, P., and Buasri, A. (2019). “Effects of mixed halide ions incorporation on ch3nh3pb(I,br)3-x(scn)x perovskite films via solution deposition route” Key Engineering Materials  821, (September 2019) : 395-400.
  5. Loryuenyong, V., Kaewmeesri, P., Siritanon, R., Nilwadee, S., and Buasri, A. (2019). “The Enhancement of Photoanode Efficiency in Dye-Sensitized Solar Cells with TiO2/Graphene Nanocomposite” JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY 19(12), (DEC 2019) : 7702-7706. DOI: 10.1166/jnn.2019.16843
  6. Buasri, A., Ojchariyakul, S., Kaewmanechai, P., Eakviriyapichat, W., and Loryuenyong, V. (2018). “The fabrication of multicolor electrochromic device based on graphene conductive ink/poly(Lactic acid) thin films by voltage-step method” Optoelectronics and Advanced Materials, Rapid Communications 12(7-8), (July-August 2018) : 388-393.
  7. Loryuenyong, V., Jindawattanawong, B., Jaroenkun, P., Supannakool, A., and Buasri, A. (2018). “The fabrication of titanium dioxide-tin oxide/reduced graphene oxide photoanodes for dye-sensitized solar cells” Key Engineering Materials 780, (2018) : 32-36.
  8. Buasri, A., Prasanwon, C., Boonsong, B., Kohprasert, P., and Loryuenyong, V. (2018). “The fabrication of graphene-reinforced aluminum composites by powder metallurgy and uniaxial pressing” Key Engineering Materials 780, (2018) : 10-14.
  9. Buasri, A., Ojchariyakul, S., Kaewmanechai, P., Eakviriyapichat, W., and Loryuenyong, V. (2018). “The fabrication of multicolor electrochromic device based on RGO/BOPP using ag nanoparticles” Materials Science Forum 926, (2018) : 79-84.
  10. Buasri, A., Promsupa, W., Wannato, S., Wanta, S., and Loryuenyong, V. (2018). “The application of modified marlstones in biofuel technology” Materials Science Forum 926, (2018) : 101-106.
  11. Buasri, A., and Loryuenyong, V. (2018). “Continuous Production of Biodiesel from Rubber Seed Oil Using a Packed Bed Reactor with BaCl2 Impregnated CaO as Catalyst” BULLETIN OF CHEMICAL REACTION ENGINEERING AND CATALYSIS 13(2), (AUG 2018) : 320-330. DOI: 10.9767/bcrec.13.2.1585.320-330
  12. Loryuenyong, V., Sukitpong, J., Nakpong, C., Khadthiphong, A., and Buasri, A. (2018). “Platinum-Free Counter Electrodes Comprised of Polypyrrole-Graphene Composite” NANOSCIENCE AND NANOTECHNOLOGY LETTERS 10(5-6), (MAY 2018) : 717-721. DOI: 10.1166/nnl.2018.2645
  13. Loryuenyong, V., Khiaokaeo, N., Koomsin, W., Thongchu, S., and Buasri, A. (2018). “Crystallisation of CH3NH3PbX3 (X = I, Br, and Cl) trihalide perovskite using PbI2 and PbCl2 precursors” MICRO & NANO LETTERS 13(4), (APR 2018) : 486-489. DOI: 10.1049/mnl.2017.0341
  14. Loryuenyong, V., Pluemmalung, K., Rattanapanya, P., Waeokhum, A., and Buasri, A. (2017). “The Reinforcement of Graphene Produced by Kitchen Blender in Cement Mortar” Key Engineering Materials, 744, (July): 77-82.
  15. Buasri, A., Chaibundit, P., Kuboonprasert, M., Silajan, A., and Loryuenyong, V. (2017). “Preparation of KI-Impregnated Razor Clam Shell as a Catalyst and its Application in Biodiesel Production from Jatropha curcasOil” Key Engineering Materials, 744, (July) : 506-510.
  16. Buasri, A., Ongmali, D., Sriboonpeng, P., Prompanut, S., and Loryuenyong, V. (2017). “Development of transparent electrodes using graphene nano-ink and post-consumer PET bottles for electrochromic application” Key Engineering Materials, 744, (July) : 506-510.
  17. Loryuenyong, V., Intong, K., Pongpraphan, V., Suksakkhee, W., and Buasri, A. (2017). “Photocatalytic Application of Graphene-Based TiO2 Nanocomposite” Solid State Phenomena, 266, (October) :79-83.
  18. Buasri, A., Ananganjanakit, T., Peangkom, N., Khantasema, P., Pleeram, K., Lakaeo, A., Arthnukarn, J., and Loryuenyong, V. (2017). “A facile route for the synthesis of reduced graphene oxide (RGO) by DVD III laser scribing and its applications in the environment-friendly electrochromic devices (ECD)” Journal of Optoelectronics and Advanced Materials, 19(7-8), (July-August) : 492-500.
  19. Loryuenyong, V., Yaotrakool, S., Prathumted, P., Lertsiri, J., and Buasri, A. (2016). “Synergistic effects of graphene-polyaniline counter electrode in dye-sensitised solar cells” Micro & Nano Letters, 11(2), (FEB): 77-80.
  20. Loryuenyong, V., Buasri, A., Lerdvilainarit, P., Manachevakulm, K., and Sompong, S. (2016). “Production of Graphitic Carbon-based Nanocomposites from K2CO3-activated Coconut Shells as Counter Electrodes for Dye-sensitized Solar-cell Applications” Journal of the Korean Physical Society, 68(2), (JAN): 317-322.
  21. Loryuenyong, V., Charoensuk, J., Charupongtawitch, R., Usakulwattana, A., and Buasri, A. (2016). “Kinetics of Photocatalytic Degradation of Methylene Blue by Tio2-Graphene Nanocomposites” Journal of Nanoscience and Nanotechnology, 16(1), (JAN): 296-302.
  22. Loryuenyong, V., Pengthum, W., Thasatan, W., and Buasri, A. (2016). “A facile preparation of reduced graphene oxide papers for electrode and adsorption applications” hiera, 10(5-6), (MAY-JUN): 417-421.
  23. Buasri, A., Kampichit, U., Salacharoen, P., Sangsawee, P., and Loryuenyong, V. (2016). “The Improvement in Mechanical and Thermal Properties of Biodegradable Poly (Butylene Succinate) (PBS) Nanocomposites with Low Loadings of Graphene Oxide (XGO)” Materials Science Forum, 872, (2016): 235-241.
  24. Buasri, A., Lukkanasiri, M., Nernrimnong, R.,  Tonseeya, S.,  Rochanakit, K., Wongvitvichot, W., Masa-ard, U., and Loryuenyong, V.(2016). “Rapid transesterification of Jatropha curcas oil to biodiesel using novel catalyst with a microwave heating system” Korean Journal of Chemical Engineering, 33(12), (DEC): 3388-3400.
  25. Loryuenyong V., Saewong C., Aranchaiya C., and Buasri A. (2015). “The Improvement on Mechanical and Barrier Properties of Poly(Vinyl Alcohol)/Graphene”, Packaging Technology and Science, 28(12): 939-947.
  26. Loryuenyong, V., Phongthongcharoen, J., Klomchit, K., Chaiklang, R., and Buasri, A. (2015). “A facile route for the synthesis of graphitic carbon-Fe-based nanocomposites from K2CO3-activated sugarcane bagasse” Optoelectronics and Advanced Materials-Rapid Communications, 9(1-2), (February): 218-221.
  27. Buasri, A., and Loryuenyong, V. (2015) “Photodegradation and thermal properties of biopolymer nanocomposites based on poly(butylene succinate) and modified titanium dioxide” Optoelectronics and Advanced Materials-Rapid Communications, 9(1-2), (JAN-FEB): 61-66.
  28. Buasri, A., Rattanapan, T., Boonrin, C., Wechayan, C., and Loryuenyong, V. (2015) “Oyster and Pyramidella Shells as Heterogeneous Catalysts for the Microwave-Assisted Biodiesel Production from Jatropha curcas oil” Journal of Chemistry, 2015, Article ID578625.
  29. Buasri, A., Patwiwattanasiri, J., Adisaisakunchai, N., Kemngen, A., and Loryuenyong, V. (2015) “The production and properties of polylactide (PLA) nanocomposites filled with graghene oxide (XGO), Optoelectronics and Advanced Materials-Rapid Communications, 9(3-4), (March-April): 507-510.
  30. Buasri, A., Inkaew, T., Kodephun, L., Yenying, W., and Loryuenyong, V. (2015) “Natural Hydroxyapatite (NHAp) Derived from Pork Bone as a Renewable Catalyst for Biodiesel Production via Microwave Irradiaton” Key Engineering Materials, 659, (AUG): 216-220.
  31. Buasri, A., Sriboonraung, T., Ruangnam, K., Imsombati, P., and Loryuenyong, V. (2015) “Utilization of Waste Enamel Venus Shell as Friendly Environmental Catalyst for Synthesis of Biodiesel” Key Engineering Materials, 659, (AUG): 237-241.
  32. Buasri, A., Rochanakit, K., Wongvitvichot, W., Masa-ard, U., and Loryuenyong, V. (2015) “The Application of Calcium Oxide and Magnesium Oxide from Natural Dolomitic Rock for Biodiesel Synthesis” Energy Procedia, 79:562 – 566.
  33. Buasri, A., and Loryuenyong, V. (2015) “The new green catalysts derived from waste razor and surf clam shells for biodiesel production in a continuous reactor” Green Processing and Synthesis, 4(5), (OCT): 389-397.
  34. Loryuenyong, V., Jarunsak, N., Chuangchai, T., and Buasri, A. (2014). “The Photocatalytic Reduction of Hexavalent Chromium by Controllable Mesoporous Anatase TiO2 Nanoparticles” Advances in Materials Science and Engineering, 2014, Article ID 348427: 1-8.
  35. Buasri, A., Worawanitchaphong, P. Trongyong, S., and Loryuenyong, V. (2014). “Utilization of Scallop Waste Shell for Biodiesel Production from Palm Oil-Optimization Using Taguchi Method” APCBEE Procedia, 8: 216-221.
  36. Buasri, A., Chaiyut, N., Loryuenyong, V., Machuen, P., Chalitapanukul, P., and Jirarattanawanna, S. (2014). “Effec of silkworm silk fibre content and length on mechanical and thermal properties of green composites based on poly(butylene succinate)” Journals of Optoelectronics and Advanced Materials, 16(7-8): 939-944.
  37. Buasri, A., Buranasing, G., Piemjaiswang, R., Yousatit, S., and Loryuenyong, V. (2014). “Effect of Titanium Dioxide Nanoparticles on Mechanical and Thermal Properties of Poly(Lactic Acid) and Poly(Butylene Succinate) Blends” Advances in Science and Technology, 96: 33-38.
  38. Loryuenyong, V., Ngoyjansri, T., Yantreesingha, P., Leelawannakhet, S., and Buasri, A. (2014). “Hydrothermal synthesis of 11 Å tobermorite from chicken eggshells, rice husks, and soda-lime-silica glasses for wastewater treatment application” Journals of Optoelectronics and Advanced Materials, 16(5-6): 600-605.
  39. Loryuenyong, V., Boonsiri, K., Ketkeaw, V., Phuangkeaw, U., and Buasri, A. (2013). “Sol-Gel Derived Mesoporous Silica Nanoparticles under Base Catalysis for Uses as Anti-Reflective Coating Layers” Advanced Materials Research, 650: 108-112.
  40. Loryuenyong, V., Buasri, A., Pochana, J., Hosawangwong, S., Thaisaung, S., and Sooksaen, P. (2013). “Synthesis of Anatase TiO2 Nanoparticles by Template Sol-Gel Method and its Application in Photocatalytic Degradation of Organic Pollutants” Advanced Science Letters, 19(10): 2919-2922.
  41. Loryuenyong, V., Totepvimarn, K., Eimburanapravat, P., Boonchompoo, W., and Buasri, A. (2013). “Preparation and Characterization of Reduced Graphene Oxide Sheet via Water-Based Exfoliation and Reduction Methods” Advanced in Materials Science and Engineering, 2013, Article ID 923403.
  42. Buasri, A., Loakhonka, P., Benjapolchai, T., Chusripet, N., and Loryuenyong, V. (2013). “Surface Modification and Characterization of Photodegradable Polystyrene-TiO2 Nanocomposites” Applied Mechanics and Materials, 372: 128-131.
  43. Buasri, A., Chaiyut, N., Loryuenyong, V., Phakdeepatarapha, E., Watpathomsub, S., and Kunakemakorn, V. (2013). “Utilization of Biodiesel Wastes as a Bioresource for the Preparation of Activated Carbon” INTERNATIONAL JOURNAL OF APPLIED PHYSICS AND MATHEMATICS, 3(3): 173-177.
  44. Buasri, A., Chaiyut, N. Loryuenyong, V., Jaritkaun, N., Yavilas, T., and Yoorengdech, N. (2013). “Mechanical and Thermal Properties of Silk Fiber Reinforced Poly(Lactic Acid) Biocomposites” OPTOELECTRONICS AND ADVANCED MATERIALS: RAPID COMMUNICATIONS, 7(11-12): 938-942.
  45. Buasri, A., Chaiyut, N., Loryuenyong, V., Wongweang, C., and Khamsrisuk, S. (2013). “Application of Eggshell Wastes as a Heterogeneous Catalyst for Biodiesel Production” SUSTAINABLE ENERGY, 1(2): 7-13.
  46. Buasri, A., Chaiyut, N., Loryuenyong, V., Worawanitchaphong, P., and Trongyong, S. (2013). “Calcium Oxide Derived from Waste Shells of Mussel, Cockle, and Scallop as the Heterogeneous Catalyst for Biodiesel Production” THE SCIENTIFIC WORLD JOURNAL, 2013: Article ID 460923.
  47. Buasri, A., Chaiyut, N., Loryuenyong, V., Pin-Ngern, K., Tonprasert, N., and Dangnuan, S. (2013). “Production of Fatty Acid Methyl Ester by Esterification of Waste Frying Oil with Methanol Using Acidified Silica as Heterogeneous Catalyst” Journal of Biobased Materials and Bioenergy, 7(2), (April 2013): 229-232.
  48. Buasri, A., Chaiyut, N., Loryuenyong, V., Prukpraopong, S., Jitlaykha, S., and Nualyai, S. (2013). “Photodegradation and Thermal Properties of Bionanocomposite Films Based on Polylactide and Functionalized Titanium Dioxide” Advanced Science Letters, 19(11): 3272-3274.
  49. Buasri, A., Pholprasert, C., Suwunnakee, N., Phuchainan, T., and Loryuenyong, V. (2013). “Effects of Carbonization Temperature and Nanoporous Silica Templating on the Synthesis of Porous Carbon from Commercial Sugar” Advanced Materials Research, 650: 113-118.
  50. Buasri, A., Chaiyut, N., Loryuenyong, V., Worachat, M., Kanchanapradit, R., and Baibou, S. (2012). “Effect of TiO2 Nanoparticles on Tensile and Photodegradation Behavior of Biopolymer Films Based on Poly(Butylene Succinate)” Applied Mechanics and Materials, 376: 89-92.
  51. Loryuenyong V.,Buasri A., Srilachai C., and Srimuang H. (2012). “The Synthesis of Microporous and Mesoporous Titania with High Specific Surface Area using Sol-Gel Method and Activated Carbon Templates,” Materials Letters, 87: 47-50.
  52. Loryuenyong, V., Angamnuaysiri, K., Sukcharoenpong, J., and Suwannasri, A. (2012). “Sol-Gel Derived Mesoporous Titania Nanoparticles: Effects of Calcination Temperature and Alcoholic Solvent on the Photocatalytic Behavior” Ceramic International, 38(3): 2233-2237.
  53. Loryuenyong, V., Angamnuaysiri, K., Sukcharoenpong J., and Suwannasri A. (2012). “Sol-Gel Template Synthesis and Photocatalytic Begaviour of Anatase Titania Nanoparticles” Scienceasia, 38(3): 301-306.

Proceedings

  1. Buasri, A., Chinaphong, T., Muangkum, P., Telakul, A., and Loryuenyong, V. (2021). “Green synthesis of reduced graphene oxide using pomelo peel and its application in electrochromic device” AIP Conference Proceedings 2397,070006. https://doi.org/10.1063/5.0063824
  2. Buasri, A., Tanayapong, T., Cherdkun, N., Paengjun, N., and Loryuenyong, V. (2021). “Fabrication and Testing of Poly(Vinyl Alcohol)/Graphene Nanocomposites Films for Food Packaging” The 30th TIChE Conference (TIChE2021) “Sustainable Development for Better Lives” Suranaree University of Technology, Nakhon Ratchasima, Thailand, (May 6-7) : 315-320.
  3. Rattanapan, C., Loryuenyong, V., and Buasri, A. (2020). “The Green Synthesized Reduced Graphene Oxide (RGO) Doped PEDOT:PSS Composite for Electrical Improvement” The 5th RSU National and International Research Conference on Science and Technology, Social Science, and Humanities 2020. Online Conference, Rangsit University, (May 1) : 687-693.
  4. Panloetparnich, W., Loryuenyong, V., and Buasri, A. (2020). “The preparation of composites between polyaniline-silver (PANI-Ag) via interfacial polymerization” IOP Conference Series: Materials Science and Engineering 965, (December 2020) : 1-7.
  5. Loryuenyong, V., Kornsawat, J., Nakhowong, W., Klinjan, W., and Buasri, A. (2020). “The temperature-dependent structural and optical properties of SrAl2O4-based phosphor” IOP Conference Series: Materials Science and Engineering 965, (December 2020) : 1-7.
  6. Rattanapan, C., Jankaenkaew, C., Sirithiwakorn, T., Loryuenyong, V., and Buasri, A. (2018). “Application of bioplastics and thermal reduced graphene oxide in electrochromic devices” Materials Today: Proceedings 5(7), (2018) : 14868-14873.
  7. Buasri, A., Ongmali, D., Sriboonpeng, P., Prompanut, S., and Loryuenyong, V. (2018). “Synthesis of PET-PLA copolymer from recycle plastic bottle and study of its applications in the electrochromic devices with graphene conductive ink” Materials Today: Proceedings 5(5), (2018) : 11060-11067.
  8. Buasri, A., Rattanapan, C., Jankaenkaew, C., Sirithiwakorn, T., and Loryuenyong, V. (2017). “The Fabrication of Electrochromic Devices Based on Reduced Graphene Oxide/Polylactide Thin Films” 2017 World Congress on Micro and Nano Manufacturing (WCMNM 2017), Kaohsiung, Taiwan, (March 27-30) : 389-390.
  9. Buasri, A., and Loryuenyong, V. (2017). “Application of waste materials as a heterogeneous catalyst for biodiesel production from Jatropha Curcas oil via microwave irradiation” Materials Today: Proceedings, 4(5) : 6051-6059.
  10. Loryuenyong, V., Boonchompoo, W., Charoensuk, J., Charupongtawitch, R., Usakulwattana, A., Boonniam, N., Jidtakasam, N., Promdee, S. and Buasri, A. (2014). “The Green Synthesis of Reduced Graphene Oxide-Based Materials” The 31st Annual Conference of the Microscopy Society of Thailand, (January 29-31.): 97-98.