Asst. Prof. Dr. Pattanawit Swanglap

dummyPhysical Chemistry

Email: yorke139@gmail.com, swanglap_p@su.ac.th

Room: 223 Science Building 3

Tel.: 034-109686 ext. 207304

Website: -

Education:

Ph.D. (Chemistry) Rice University, USA

B.Sc. (Chemistry) Silpakorn University, Thailand

Research Interest:

Metal nanoparticles and their applications in sensing and coating

Publications:

  • Kaewnok, N., Kraithong, S., Mahaveero, T., Maitarad, P., Sirirak, J., Wanichacheva, N., Swanglap, P. (2022). “Silver nanoparticle incorporated colorimetric/fluorescence sensor for sub-ppb detection of mercury ion via plasmon-enhanced fluorescence strategy.” Journal of Photochemistry and Photobiology A: Chemistry, 433: 114140. (ISI, SCOPUS)

  • Sinthuprasert, P., Petdum, A., Swanglap, P., Panchan, W., Sooksimuang T., Wanichacheva, N., Setthakarn, K. (2021). “[5]Helicene-Scaffold Fluorescence Sensing for Selective Detection of Au3+ Ions and Gold Nanoparticle.” Journal of the Brazilian Chemical Society, 32: 852–859. (ISI, SCOPUS)

  • Kraithong, S., Chailek, N., Sirirak, J., Suwatpipat, K., Wanichacheva, N., Swanglap, P. (2021). “Improving sensitivity of a new Hg2+-Selective fluorescent sensor by silver nanoparticles via plasmonic enhancement.” Journal of Photochemistry and Photobiology A: Chemistry, 407: 113064. (ISI, SCOPUS)

  • Suvokhiaw, S., Petdum, A., Faichu, N., Handee, W., Thepsuparungsikul, N., Swanglap, P., Chimpalee, N., Wanichacheva, N. (2020). “Selective Entrapment of Pb2+ from Fresh Thunbergia laurifolia Leaves Extract and Thunbergia laurifolia Tea Extract.” Journal of Brazilian Chemical Society, 31(3): 498-504.

  • Kraithong, S., Sirirak, J., Soisuwan, K., Wanichacheva, N., Swanglap, P. (2018). “Enhancing Sensitivity of Novel Hg2+ Fluorescent Sensor via Plasmonic Enhancement of Silver Nanoparticles.” Sensors and Actuators, B: Chemical, 258: 694-703. (ISI)

  • พินิจ เอี่ยมสะอาด, จิตนภา  ศิริรักษ์,  สุธินี  เกิดเทพ, ณัฐวรรณ วรวรรโณทัย, พัฒนาวิศว์ สว่างลาภ, ฉันทนา วัยนิพิฐพงษ์, พรทิพย์ ชัยมณี, สุพรรณี ฉายะบุตร และ ชีวิตา สุวรรณชวลิต. (2559). “การสังเคราะห์ไทเทเนียมไดออกไซด์เพื่อใช้เป็นสารดูดกลืนรังสียูวีเพื่อเพิ่มความคงทนแสงของผงสีธรรมชาติ.” Veridian E-Journal Science and Technolog Silpakorn University, 3(5):  41-52. (TCI กลุ่ม 2)

  • Kraithong, S., Damrongsak, P., Suwatpipat, K., Sirirak, J., Swanglap, P., Wanichacheva, N. (2016). “Highly Hg2+-sensitive and selective fluorescent sensors in aqueous solution and sensors encapsulated polymeric membrane.” RSC Advances, 6: 10401-10411. (ISI)

  • Praikaew, P., Duangdeetip, T., Chimpalee, N., Wainiphithapong, C., Swanglap, P., Wanichacheva, N. (2015). “Colorimetric sensor for detection of Hg2+ in aqueous samples utilizing rhodamine B hydrazide-modified silica.” Materials Express, 5(4): 300-308. (ISI)

  • Hastings, S.P., Qian, Z., Swanglap, P., Fang, Y., Park, S-J., Link, S., Engheta, N., Fakhraai, Z. (2015). “Modal interference in spiky nanoshells.” Optics Express, 23: 11290-11311. (ISI)

  • Slaughter, L.S., Wang, L.Y., Willingham, B.A., Olson, J.M., Swanglap, P., Dominguez-Medina, S. and Link, S. (2014). “Plasmonic polymers unraveled through single particle spectroscopy.” Nanoscale, 6(19): 11451-11461. (ISI)