Assist. Prof. Dr Wanida Wonsawat, Suan Sunandha Rajabgat University, Thailand
Assist. Prof. Dr. Wanida Wonsawat πΉπ is a leading scholar in analytical chemistry with a strong dedication to research, innovation, and community development. Her work integrates electroanalytical chemistry, material science, and sensor development to solve real-world problems. π§ͺπ¬ With an academic journey rooted at Chulalongkorn University and Burapha University, she has produced numerous high-impact publications and patented devices addressing food safety, environmental monitoring, and public health. ππ₯Ό Her research is widely recognized internationally, earning gold and silver medals across global invention expos in Russia π·πΊ, Japan π―π΅, Romania π·π΄, and Korea π°π·. Her leadership in developing novel paper-based and electrochemical sensors positions her as a pioneer in accessible diagnostics. π‘π As an educator and mentor, she contributes significantly to Thailandβs scientific and academic community. Her outstanding achievements and innovative approach make her a deserving candidate for the Best Researcher Award.
Publication Profile
Google Scholar
Education
Assist. Prof. Dr. Wanida Wonsawat is a dedicated scholar in Analytical Chemistry π§ͺπ. She earned her Ph.D. in Analytical Chemistry in 2012 from Chulalongkorn University, Bangkok πΉπ, following her M.Sc. in the same field from the same institution in 2006. Her academic journey began with a B.Ed. in Chemistry Teaching from Burapha University, Chon Buri, in 1999 ππ§βπ«. With a strong foundation in both education and scientific research, Dr. Wonsawat combines her passion for teaching and analytical precision, contributing significantly to the academic and scientific community through education and research π¬π.
Experience
Assist. Prof. Dr. Wanida Wonsawat has been the recipient of numerous prestigious scholarships and grants throughout her academic journey. She was honored with the 90th Anniversary of Chulalongkorn University (Ratchadaphiseksomphot Endowment Fund) awards in both 2006β2007 and 2011β2012 ππ
. She received support from the Asian Development Bank (ADB) in 2007β2008 ππ° and benefited from Thailandβs Higher Educational Strategic Scholarships for Frontier Research Network Project between 2007 and 2010 π¬π. In 2008, she earned the JASSO Scholarship from Japan π―π΅π€. Additionally, she was granted the CU Graduate School Thesis Grant in 2005 for her research excellence ππ.
Research Topics
Assist. Prof. Dr. Wanida Wonsawat specializes in analytical and electroanalytical chemistry, with a strong focus on developing and modifying electrodes βοΈπ¬. Her research spans material science and nanomaterials for advanced chemical sensors, contributing to innovations in chemical detection technologies π§ͺπ§². She is also deeply involved in quality control in chemistry, ensuring precision and accuracy in analytical methods β
π. Additionally, Dr. Wonsawat explores flow-based analysis techniques, enhancing the efficiency and automation of chemical measurements π§π. Her work bridges scientific innovation and practical application, positioning her as a key contributor in modern chemical analysis and sensor development ππ§«.
Awards
Assist. Prof. Dr. Wanida Wonsawat is an accomplished innovator and educator ππ¬. In 2023, she earned a Silver Medal at JDIE Tokyo for her Probiotic Karanda Gummy project ππ₯ and was recognized as an outstanding teacher by the Boon-Tin Atthakorn Foundation π©βπ«π. Her earlier accolades include multiple Gold Medals at ARCHIMEDES in Moscow (2019, 2021) π₯π·πΊ, Romania, and Sevastopol, and special awards from Morocco and Saudi Arabia ππ. In 2018, she received honors from Indonesia and Korea for her βPhosPhate-Check kitsβ project π§ͺπ°π·. Her journey of excellence began with a Poster Outstanding Award at ICAPMA 2015 in Thailand ππΉπ.
Research Focus
Assist. Prof. Dr. Wanida Wonsawat’s research primarily focuses on electrochemical sensors, analytical chemistry, and food and environmental safety π§ͺπ±π±. Her work involves the development of innovative electrochemical detection methods using materials like carbon nanotubes, graphene, and MXene for identifying hazardous substances such as Sudan dyes, heavy metals (Cd, Pb), pesticides, and mycotoxins β£οΈπ·. She also contributes to biosensing technologies, detecting HPV DNA and Salmonella using advanced electrodes and lateral flow devices π§¬π¦ . Her expertise bridges nanomaterials, sensor design, and automation in analytical platforms, ensuring sensitive, cost-effective, and rapid diagnostics for public health and environmental monitoring β‘π¬π.
Publication Top Notes
Analysis of sudan I, sudan II, sudan III, and sudan IV in food by HPLC with electrochemical detection: Comparison of glassy carbon electrode with carbon nanotube-ionic liquidΒ β¦
Electrochemical detection of human papillomavirus DNA type 16 using a pyrrolidinyl peptide nucleic acid probe immobilized on screen-printed carbon electrodes
The simultaneous determination of isoproturon and carbendazim pesticides by single drop analysis using a graphene-based electrochemical sensor
A nanocomposite prepared from platinum particles, polyaniline and a Ti3C2Β MXene for amperometric sensing of hydrogen peroxide and lactate
Polyaniline/graphene quantum dot-modified screen-printed carbon electrode for the rapid determination of Cr (VI) using stopped-flow analysis coupled with voltammetric technique
Graphene-carbon paste electrode for cadmium and lead ion monitoring in a flow-based system
Dual Colorimetric/Electrochemical Detection ofΒ SalmonellaΒ typhimurium Using a Laser-Induced Graphene Integrated Lateral Flow Immunoassay Strip
Highly sensitive determination of cadmium and lead using a low-cost electrochemical flow-through cell based on a carbon paste electrode