Northwestern’s MSE PhD advances solid-state batteries, quantum spintronics, and self-healing polymers. Students pair atom-probe tomography with AI phase-diagram prediction, publish in *Nature Materials*, and found cleantech start-ups through the Querrey InQbation accelerator. Outreach with museums brings nanoscience to K-12 classrooms.
Grow perovskite/Si tandem solar films via vapor-transport deposition
Model ion-transport pathways in solid electrolytes using ab-initio MD and ML
Fabricate skyrmion racetrack memory devices on multilayer thin films
Develop self-immolating polymers for zero-waste packaging
Investigate hydrogen embrittlement mitigation in additively manufactured steels
Design MOF photocatalysts for ammonia synthesis under visible light
Characterize interface stability in Li-metal batteries with cryo-FIB SEM
Create biodegradable thermoplastic composites reinforced by nanocellulose
Build quantum-dot single-photon sources integrated with SiN photonics
Simulate fracture mechanics of ceramic matrix composites for hypersonics
Assess circular-economy metrics of closed-loop PET depolymerization
Prototype stretchable e-textiles with silver-nanowire percolation networks
Use AI to predict glass-forming ability in multicomponent alloys
Develop colorimetric gas sensors from plasmonic nanoparticle arrays
Write DOE SBIR proposal on sodium solid-state batteries for grid storage
Engineer matter for a sustainable, quantum-ready world with Northwestern’s MSE PhD.
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