Princeton’s B.S.E. in Chemical and Biological Engineering trains students in problem-solving across chemical systems, biological technologies, and sustainable engineering. The following research ideas offer a launchpad for innovation-driven academic exploration.
Designing Bioreactors for Efficient Algae-Based Biofuel Production
CRISPR-Driven Biomanufacturing of Pharmaceuticals
Membrane Technology for Water Purification in Resource-Limited Settings
Kinetics of Catalytic Converters Using Sustainable Metals
Biodegradable Polymers for Environmental Packaging Solutions
Microfluidics for Rapid Diagnostic Testing in Pandemic Scenarios
Enzyme Engineering for Industrial Biocatalysis
Electrochemical Reduction of CO₂ for Green Chemical Synthesis
Smart Drug Delivery Systems Using pH-Sensitive Nanoparticles
Hydrodynamics of Packed Bed Reactors in Chemical Plants
Modeling the Heat Transfer in Multiphase Bioreactor Systems
Waste Valorization Through Anaerobic Digestion in Urban Setups
Genetic Circuit Design for Cell-Based Biosensors
Plasma-Enhanced Catalysis for Energy Storage Systems
Protein Folding and Misfolding in Industrial Fermentation
Biofilm Formation in Medical Device Engineering
Sustainable Ammonia Production Using Solar-Thermal Reactors
Engineering Yeast for High-Ethanol Tolerance in Bioethanol Production
Artificial Photosynthesis for Renewable Chemical Conversion
Dynamic Modeling of Pharmaceutical Crystallization Processes
Collexa assists B.S.E. students with lab-based research, computational modeling, material analysis, and innovation-focused thesis development in chemical and bioengineering.
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