UIUC’s NPRE PhD propels researchers to tame stellar plasmas, perfect advanced reactors, and deploy radiation for space and medicine. Students simulate tokamak edge turbulence on exascale machines, design fast-neutron microreactors for lunar bases, and create radio-nano-therapies targeting resistant cancers. Partnerships with ITER, Idaho National Lab, and Mayo Clinic accelerate impact.
SOLPS-ITER modeling of divertor detachment regimes
Molten-salt fast-reactor fuel-cycle neutronics with depleted uranium
Pulsed-power Z-pinch neutron source for cargo scanning feasibility
Radiation shielding composites using lunar regolith simulant
Monte-Carlo assessment of proton FLASH therapy dose-rate effects
ML surrogate of neutron transport for real-time core monitoring
Policy white paper on fusion waste stewardship frameworks
Hall-effect thruster plume–spacecraft interaction diagnostics
Grant proposal for radiopharmaceutical production in university reactors
Citizen-science radon detection via IoT sensor network
Tokamak disruption prediction with graph neural networks
Nano-scintillator dosimeters for microbeam radiation research
Stochastic risk analysis of SMR deployment in remote grids
Zero-knowledge proof tech for treaty-compliant warhead verification
Plasma catalysis of CO₂ to methanol kinetics study
Fuel clean power and health innovation with UIUC NPRE.
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