Home > Chacriya Malasuk

Dr. Chacriya Malasuk

Position
Affiliated Faculty
Unit
Environmental Engineering and Management (EEM)
QUALIFICATION
RESEARCH INTERESTS
SELECTED PUBLICATIONS
ONGOING AND COMPLETED PROJECTS
  1. D.Eng. (Electrical and Electronic), Kyushu University, Japan (2017–2020)
  2. M.Sc. (Analytical Chemistry), Mahidol University, Thailand (2014–2017)
  3. B.Sc. (Chemistry), Mahidol University, Thailand (2010–2014; First Class Honor)
  1. Analysis and Validation of Analytical Chemistry by Statistics
  2. Techniques Separation
  3. Chromatographic instrumentation
  4. Analytical Chemistry research project
  5. Biosensors
  6. Biological analysis using specific equipment (GC, HPLC)

Below are some selected journal articles:

  1. P. Jaiaue, J. Piluk, K. Sawattrakool, J. Thammakes, Malasuk, C., S. Thitiprasert, N. Thongchul, S. Siwamogsatham (2022). Mathematical modeling for evaluating inherent parameters affecting UVC decontamination of indicator bacteria. Applied and Environmental Microbiology. doi:10.1128/aem.02148-21.
  2. K. Strzelax, Malasuk, C., Y. Oki, K. Morita, R. Ishimatsu (2020). 3D printed silicone platforms with laser-scattering protein detection under flow analysis conditions as a development of Silicone Optical Technology (SOT). Microchemical Journal, 157, 104936.
  3. Malasuk, C., R. Ishimatsu, K. Morita, H. Yoshioka, Y. Oki (2020). Flow-through optical device based on Silicone Optical Technology (SOT) for determination of iron in drinkable tap water. Microchemical Journal, 157, 104897.
  4. R. Ishimatsu, S. Shimizu, S. Hongsibsong, K. Nakano, Malasuk, C., Y. Oki, K. Morita (2020). Enzyme-Linked Immunosorbent Assay Based on Light Absorption of Enzymatically Generated Polyaniline: Flow Injection Analysis for 3-Phenoxybenzoic Acid with Anti-3-Phenoxybenzoic Acid Monoclonal Antibody. Talanta, 218, 121102.
  5. Malasuk, C., K. Nakakubo, R. Ishimatsu, Y. Nakashima, H. Yoshioka, K. Morita, Y. Oki (2019). Compact and on-demand 3D-printed optical device based on silicone optical technology (SOT) for on-site measurement: Application to flow injection analysis. Review of Scientific Instruments, 90.
  6. Malasuk, C., K. Nakakubo, H. Yoshioka, K. Morita, Y. Oki (2018). 3D printing optical devices based on silicone optical technology (SOT) and its application on analytical chemistry. Proceedings of SPIE OPTO, 10914.
  7. Y. Nakashima, M. Kounoura, Malasuk, C., K. Nakakubo, N. Watanabe, S. Iwata, K. Morita, Y. Oki, S. Kuhara, K. Tashiro, Y. Nakanishi (2019). Continuous cell culture monitoring using a compact microplate reader with a silicone optical technology-based spatial filter. Review of Scientific Instruments, 90, 035106.

Ongoing
– The Minamata Convention on Mercury project by UNEP entitled ‘Mercury analysis in hair
samples: Mercury exposure level for citizens in Palau and Maldives’
– The Minamata Convention on Mercury project by UNEP entitled ‘Mercury and
Hydroquinone Analysis for Skin Lightening Cosmetics’

Completed
– UNEP project of Training Program #5 entitled “Laboratory operation for methylmercury
analysis in human hair, total mercury analysis in human hair and skin lightening products,
and hydroquinone analysis in skin lightening products”