Princeton’s Chemistry Ph.D. program empowers researchers to tackle complex chemical challenges across synthesis, computation, and spectroscopy. The following dissertation ideas reflect innovation in materials design, reactivity, and chemical understanding.
Development of Metal-Free Catalysts for Green Organic Reactions
Time-Resolved Spectroscopy of Ultrafast Photochemical Processes
Design of Photoresponsive Materials for Molecular Electronics
Asymmetric Synthesis of Complex Natural Products
Quantum Mechanical Simulations of Enzyme Reaction Pathways
Supramolecular Self-Assembly for Targeted Drug Delivery
Electrocatalysis for CO₂ Reduction in Aqueous Media
Reactive Intermediates in Transition Metal Catalysis
In Situ Monitoring of Catalytic Reactions via NMR Techniques
Molecular Design of Fluorescent Probes for Live-Cell Imaging
Polymer Chemistry for Biodegradable Packaging Materials
Computational Prediction of Chemical Reaction Networks
Photocatalytic Hydrogen Evolution with Earth-Abundant Materials
Radical Chemistry in Late-Stage Functionalization of Pharmaceuticals
Hybrid Organic-Inorganic Frameworks for Gas Storage
Chiral Ligand Development for Enantioselective Catalysis
Single-Atom Catalysts for Selective Oxidation Reactions
Solid-State NMR for Structural Elucidation of Membrane Proteins
Synthetic Models of Metalloenzymes for Biomimetic Studies
Electrochemical Methods in Organic Synthesis and Mechanistic Analysis
Collexa provides Ph.D. scholars at Princeton with assistance in computational chemistry, reaction mechanism analysis, spectroscopy data interpretation, and dissertation strategy in modern chemical research.
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