Georgia Tech’s ChE PhD catapults researchers into DOE hubs tackling green-hydrogen, DAC, and biomanufacturing. Doctoral candidates code multiphysics models on exascale clusters, build plasma-enhanced CO₂ electrolyzers in the Carbon-Neutral Process Innovation Center, and spin CRISPR yeast pathways for SAF precursors—often in collaboration with ARPA-E and Fortune 50 partners.
Plasma-assisted ammonia synthesis at atmospheric pressure
Machine-learning catalyst discovery for CO₂-to-ethylene conversion
Continuous-flow microreactor for mRNA-lipid nanoparticle assembly
Techno-economic analysis of green hydrogen for steelmaking
Ion-conducting membrane development for direct-air-capture units
Metabolic flux-balance model of methane-eating bioreactors
Electrified steam-cracker retrofit using resistive heating
Operando X-ray study of nickel phosphide water-splitting catalysts
Bio-PET depolymerization via enzyme-immobilized structured packings
Dynamic process control of electrolyzers under variable solar power
Solvent-free mechanochemical synthesis of battery precursors
Life-cycle carbon audit of algae-based bio-jet fuel
AI-driven fouling predictor in spiral-wound RO modules
Solid-oxide CO₂ electrolyzer stack thermal management CFD
Circular polymer up-cycling route using organocatalyzed depolymerization
Engineer molecules, reactors, and systems for a zero-carbon economy.
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