Harvard’s CCB PhD equips scientists to tackle grand challenges—clean energy, climate chemistry, and precision therapeutics—by mastering theory, synthesis, and spectroscopy. Students grow quantum‑dot catalysts for CO₂ reduction, decode ribosome stalling with cryo‑EM, and simulate ultrafast photochemistry on GPU clusters. Interdisciplinary committees spanning physics to systems biology encourage boundary‑breaking dissertations.
Photoredox catalyst library for plastic upcycling
Terahertz spectroscopy of hydrogen‑bond networks in ice
Quantum‑chemical study of perovskite solar‑cell interfaces
Time‑resolved X‑ray scattering capturing enzyme transition states
Electrocatalytic nitrate reduction for groundwater cleanup
Design of chiral MOFs separating racemic pharmaceuticals
Machine‑learning force fields for reactive molecular dynamics
Synthetic route to halogen‑free OLED emitters
In‑cell NMR mapping metabolite–protein interactions
Policy white paper on scaling green ammonia synthesis
Virtual‑reality teaching tool of molecular orbital symmetry
Covalent inhibitor targeting mutant KRAS G12D
Single‑particle cryo‑EM of stalled translation complexes
Workshop on cheminformatics for high‑school outreach
Dashboard visualizing global patent trends in sustainable chemistry
Transform chemical insight into energy, materials, and health solutions.
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