The M.S.E. in Chemical and Biological Engineering at Princeton provides a strong foundation in transport processes, materials science, molecular biology, and systems engineering. These research topics offer insights into real-world applications and innovative exploration.
Bioreactor Design for CRISPR-Based Pharmaceutical Production
Modeling of Protein Folding in High-Throughput Bioreactors
Nanoparticle-Assisted Chemotherapy Targeting Techniques
Hydrogen Fuel Cells with Advanced Catalyst Nanomaterials
Artificial Photosynthesis Systems for Sustainable Fuel
Synthetic Biology Tools for Biosensor Circuit Design
Biofilm Resistance in Medical Device Surface Engineering
Smart Polymers for pH-Responsive Drug Delivery
Computational Modeling of Membrane Transport Mechanisms
Carbon Capture Using Functionalized Metal Organic Frameworks (MOFs)
Plasma-Assisted Catalysis in Clean Energy Applications
Single-Cell Genomics Integration in Biomanufacturing
Polymer Electrolytes for Next-Generation Batteries
High-Efficiency Solar Cells Using Quantum Dot Layers
Biodegradable Plastics Through Enzyme Catalysis
AI-Driven Bioprocess Optimization in Industrial Fermentation
Waste Valorization Using Anaerobic Digestion Pathways
Scalable Production of mRNA Therapeutics
Thermal Transport in Microfluidic Heat Exchangers
Tissue Engineering Scaffolds with Tunable Mechanical Properties
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