- Project 1: Streamlined identification of PAHs/PACs in environmental samples using ultra compact spectroscopy platforms and machine learning strategies
- Project 2: Role of PAH exposures associated with superfund site proximity in preterm birth etiology through placental transcriptomics and metagenomics
- Project 3: Role of cytochrome P450 (CYP)1A/1B1 enzymes in the potentiation of neonatal lung injury in newborn mice exposed prenatally to PAHs, and increased risk of premature infants to chronic lung disease
- Project 4: Pyolytic conversion of PAHs in contaminated sediments into char to eliminate toxicity and enhance soil fertility