UIUC’s Chemical Engineering PhD propels scholars into atom-to-gigaton scale discovery. Students unravel catalytic mechanisms with femtosecond X-ray pulses, train reinforcement-learning controllers for modular electro-refineries, and design biomimetic membranes that capture CO₂ as they desalinate water. Cross-appointments with the Beckman Institute and Argonne tie molecular innovation to global process deployment.
In operando XAS study of single-atom catalysts for ammonia synthesis
Quantum-chemistry-driven generative model for solvent-free green reactions
Techno-economic analysis of solid oxide electrolysis for e-aviation fuels
Soft-sensor ensemble predicting fouling in continuous bioreactors
AI-accelerated microkinetic modeling of methane pyrolysis to hydrogen
Circular-economy LCA comparing enzymatic recycling vs. pyrolysis of PET
Graph neural-network screening of MOFs for direct-air CO₂ capture
Policy brief on tax-credit structures for negative-emission chemicals
Autonomous lab workflow optimizing polymer upcycling catalysts
Plasma-assisted nitrogen fixation kinetics with pulsed power
Grant proposal for carbon-neutral ethylene pilot plant
Electro-swing adsorption process control via model-predictive algorithms
White paper on safety governance for self-driving chemical plants
Bio-electrochemical route to PHB bioplastic from ag-waste syngas
Open-source data set of catalyst deactivation under real flue gases
Dynamic life-cycle costing of hydrogen hubs co-located with renewables
Create sustainable chemical futures through UIUC’s pioneering research ecosystem.
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