Academic Profile : No longer with NTU
Asst Prof Fang Mingliang
Assistant Professor, School of Civil and Environmental Engineering
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Dr. Fang began his training as an environmental analytical chemist, and have recently applied his skills towards interdisciplinary -omic research. During his graduate training with Dr. Heather M. Stapleton at Duke University (PhD, 2015, Durham, NC, US), he expanded expertise to several research fields including organic contaminant fate, human exposure measurements, xenobiotic metabolism, biomarker identification, and toxicological studies with emerging environmental contaminants. Between 2015 and 2016, he worked as a research associate at The Center for Metabolomics and Mass Spectrometry at The Scripps Research Institute (San Diego, California, US) with Dr. Gary Siuzdak. There, his research focused on the application of high-resolution mass spectrometry (HRMS)-based metabolomics to investigate metabolite and biological pathway perturbations in relation to disease conditions. In Dec 2016, he was employed as an assistant professor in the School of Civil and Environmental Engineering, Nanyang Technological University in Singapore.
For more details on Dr. Fang's research activities, please visit - www.mlfanglab.weebly.com
For more details on Dr. Fang's research activities, please visit - www.mlfanglab.weebly.com
High-resolution mass spectrometry based metabolomics and lipidomics
Fate and transport of emerging environmental contaminants
Human exposure and biomarker discovery
Nuclear-receptor related endocrine disruption by environmental contaminants
High-throughput bioassay application in the toxicity assessment
Effect-directed analysis to screen bioactive compounds in environmental mixtures
Fate and transport of emerging environmental contaminants
Human exposure and biomarker discovery
Nuclear-receptor related endocrine disruption by environmental contaminants
High-throughput bioassay application in the toxicity assessment
Effect-directed analysis to screen bioactive compounds in environmental mixtures
- “Breaking the ground” in Semakau Landfill: technological solutions for site investigation and material reuse
- Autologous PKD iPSC-derived kidney organoids: a novel platform for personalized drug screening
- Autologous PKD iPSC-derived kidney organoids: a novel platform for personalized drug screening (sub-award)
- Bedside to bench and back again: evaluating Neisseria spp.as novel respiratory pathobionts using systems biology
- Bedside to bench and back again: evaluating Neisseria spp.as novel respiratory pathobionts using systems biology (sub-award)
- Development of Chemical Testing Protocols and Analysis of Pesticide and Repellent Products
- Long-Term Environmental Behaviour for Treated Incineration Bottom Ash
- Metabolomics-directed drug detoxification using a high-throughput hPSC-derived 3D kidney organoid platform
- Predisposing lineage specification via precise emulation of 3D embryonic epiblast