Northwestern’s Chemistry PhD cultivates scholars who engineer COFs for carbon capture, decode enzyme catalysis with femtosecond spectroscopy, and craft quantum dots for photonic computing. Interdisciplinary clusters link chemists with materials scientists and clinicians, while entrepreneurship bootcamps channel breakthroughs into venture pipelines.
Synthesize chiral organocatalysts for asymmetric electrochemical reactions
Measure ultrafast charge-transfer in perovskite–polymer interfaces
Design COF membranes selective for acetylene/ethylene separations
Develop photoredox catalysis enabling late-stage drug C-H fluorination
Investigate halogen-bond templating in supramolecular cages for drug delivery
Create machine-learning models predicting redox potentials of battery electrolytes
Elucidate reaction pathways in plastic depolymerization via operando NMR
Engineer enzyme mimetics stabilizing nitrogenase for ambient ammonia synthesis
Map atmospheric microplastic aging chemistry using high-resolution MS
Develop quantum-coherent upconversion materials for bio-imaging
Optimize single-atom alloy catalysts for propane dehydrogenation
Study mechanochemical synthesis routes reducing solvent waste
Design self-healing polymer networks activated by visible-light triggers
Screen MOF photocatalysts for CO₂ reduction using high-throughput robotics
Write NIH STTR proposal on metal-organic nanorods for targeted chemotherapy
Advance molecular discovery and sustainability with Northwestern’s Chemistry PhD.
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