Duke’s Chemistry Ph.D. empowers researchers to synthesize complex molecules, probe ultrafast reactions, and design catalytic processes for a net-zero future. Students use attosecond spectroscopy to capture electron motion, run AI reaction-prediction engines, and 3-D print metal–organic frameworks for carbon capture. Industry partnerships provide pathways from lab bench to sustainable startups.
Organometallic catalysts converting CO₂ to jet fuel
Ultrafast pump-probe study of photoinduced electron transfer
Graphene-based sensor detecting PFAS in water
AI retrosynthetic planner for antiviral drug scaffolds
Electrochemical ammonia synthesis under ambient conditions
Fluorescent probes for real-time ROS imaging in living cells
Green-chemistry redesign of undergraduate lab experiments
Solar-powered photoredox C–H functionalization reactor
Dynamic combinatorial library for covalent inhibitor discovery
Life-cycle analysis of biodegradable polymer packaging
VR visualization of molecular orbital dynamics
Bio-inspired MOF for atmospheric water harvesting
Citizen-science kit measuring air pollutants via colorimetry
Blockchain registry tracking catalyst longevity data
Advance molecules that power a sustainable future with Duke Chemistry.
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