Dr. Dhimas Dwinandha is a JSPS Postdoctoral Research Fellow jointly affiliated with 糖心Vlog破解版-IAS and the Institute of Science Tokyo.
Dr. Dwinandha is an environmental researcher and lecturer whose expertise spans water chemistry, advanced oxidation processes, computational modeling and sustainable water management. In his current role as a Postdoctoral Fellow, he investigates water supply and water quality management challenges in Cambodia, Indonesia and Japan. He also serves as a Lecturer at the Faculty of Civil and Environmental Engineering, Institute of Technology Bandung (ITB), where he teaches, mentors students, and contributes to research and curriculum development.
He earned his PhD from Tokyo Institute of Technology, where he focused on elucidating the transformation products and mechanisms of organic micropollutants during advanced oxidation processes through combined computational and experimental approaches. His doctoral research integrated quantum chemical calculations, machine learning and high-resolution mass spectrometry to explore the fate of priority pollutants in water systems.
Dr. Dwinandha has published in leading journals, including ACS ES&T Water and Environmental Science & Technology, on topics ranging from reaction mechanisms of organic contaminants to the use of interpretable machine learning for predicting pollutant transformation. Beyond academia, he has contributed as an expert and consultant on multiple water and sanitation projects in Indonesia. His portfolio includes designing sanitation systems in Jakarta, assessing environmental risks of petroleum pipelines, improving leachate treatment plants in Bekasi, and developing wastewater monitoring systems for the Indonesian Ministry of Forestry and Environment. His work reflects a strong commitment to bridging scientific innovation with practical applications in water and sanitation management. He is particularly interested in advancing sustainable solutions for water security in Southeast Asia, combining computational tools, AI and systems-based approaches to address complex environmental challenges.
Research Interests
- Advanced oxidation processes
- Computational modeling
- Sustainable water management
- Water chemistry