Assoc.Prof.Dr. WIJITAR DUNGCHAI

Work Affiliations

Strategic Research Themes

Publications

  

  

  

2 of 3

  

  

  

• ● Distance‑based paper device using combined SYBR safe and gold nanoparticle probe LAMP assay to detect Leishmania among patients with HIV; Toon Ruang‑areerate, Natkrittaya Saengsawang, Panthita Ruang‑areerate, et al.; 2022; Journal article
• ● Distance-based β-amyloid protein detection on PADs for the scanning and subsequent follow-up of Alzheimer’s disease in human urine samples; Kawin Khachornsakkul, Anongnat Tiangtrong, Araya Suwannasom, et al.; 2022; Journal article
• ● Dual-mode ion-selective electrodes and distance-based microfluidic device for detection of multiple urinary electrolytes; Kamonchanok Phoonsawat, Tugba Ozer, Wijitar Dungchai and Charles S. Henry; 2022; Journal article
• ● Determination of sibutramine compound in slimming supplements using distance-based paper devices; Chanya Punthama and Wijitar Dungchai; 2021; Conference proceedings article
• ● Distance-Based Paper Device for a Naked-Eye Albumin-to-Alkaline Phosphatase Ratio Assay; Kamonchanok Phoonsawat, Kawin Khachornsakkul, Nalin Ratnarathorn, et al.; 2021; Journal article
• ● An Oxalic Acid Sensor Based on Platinum/Carbon Black-Nickel-Reduced Graphene Oxide Nanocomposites Modified Screen-Printed Carbon Electrode; Income, K; Ratnarathorn, N; Themsirimongkon, et al.; 2019; Journal article
• ● An oxalic acid sensor based on platinum/carbon black-nickelreduced graphene oxide nanocomposites modified screenprinted carbon electrode; Income K., Ratnarathorn N., Themsirimongkon S., et al.; 2019; Journal article
• ● Cotton fiber-based assay with time-based microfluidic absorption sampling for point-of-care applications; Wicaksono D.H.B., Syazwani I.N., Ratnarathorn N., et al.; 2019; Journal article
• ● Disposable Nonenzymatic Uric Acid and Creatinine Sensors Using mu PAD Coupled with Screen-Printed Reduced Graphene Oxide-Gold Nanocomposites; Income, K; Ratnarathorn, N; Khamchaiyo, et al.; 2019; Journal article
• ● Distance-based paper device combined with headspace extraction for determination of cyanide; Khatha P., Phutthaphongloet T., Timpa P., et al.; 2019; Journal article
• ● A distance-based paper sensor for the determination of chloride ions using silver nanoparticles; Phoonsawat K., Ratnarathorn N., Henry C.S., et al.; 2018; Journal article
• ● A fluorometric paper-based sensor array for the discrimination of volatile organic compounds (VOCs) with novel salicylidene derivatives; Jarangdet T., Pratumyot K., Srikittiwanna K., et al.; 2018; Journal article
• ● A simple paper-based colorimetric device for rapid and sensitive urinary oxalate determinations; Worramongkona P., Seeda K., Phansomboon P., et al.; 2018; Journal article
• ● Highly sensitive colorimetric detection of lead using maleic acid functionalized gold nanoparticles; Ratnarathorn N., Chailapakul O., Dungchai W.; 2015; Journal article
• ● Determination of Fe(II) in drinking water by paper-based microfluidic devices with colorimetric sensing; Ninwong B., Dungchai W.; 2014; Journal article
• ● Multilayer paper-based device for colorimetric and electrochemical quantification of metals; Rattanarat P., Dungchai W., Cate D., et al.; 2014; Journal article
• ● Paper-based Analytical Device; Duenchay, P.;Dungchai, W.; 2014; Journal article
• ● A microfluidic paper-based analytical device for rapid quantification of particulate chromium; Rattanarat P., Dungchai W., Cate D.M., et al.; 2013; Journal article
• ● Determination of aerosol oxidative activity using silver nanoparticle aggregation on paper-based analytical devices; Dungchai W., Sameenoi Y., Chailapakul O., et al.; 2013; Journal article
• ● Electrochemical detection of glucose from whole blood using paper-based microfluidic devices; Noiphung J., Songjaroen T., Dungchai W., et al.; 2013; Journal article

Expertise