Northwestern’s MSMSE places students in world-leading labs pioneering solid-state batteries, quantum dots, and self-healing polymers. Coursework in thermodynamics and kinetics converges with machine-learning phase-diagram prediction and atom-probe tomography workshops. Industry-sponsored thesis projects retrofit lithium-metal anodes or design MOF-based carbon-capture membranes, preparing graduates for high-impact R&D or PhD pursuits.
Synthesize solid-electrolyte interphase modifiers enhancing sodium-ion battery cycling
Model grain-boundary segregation in high-entropy alloys with CALPHAD and DFT
Develop plasmonic nanoparticle inks for low-temperature printed electronics
Characterize bio-derived polymer degradation via synchrotron X-ray scattering
Fabricate stretchable graphene e-textiles and test durability under laundering
Predict quantum-dot band-gap tunability using graph neural networks
Design MOF membranes for vacuum-swing CO₂ capture and perform breakthrough tests
Investigate hydrogen embrittlement mitigation coatings for additively manufactured steels
Prototype thermochromic smart windows using perovskite microcapsules
Measure thermal transport in 2-D materials heterostructures with TDTR
Create recyclable epoxy resins via dynamic covalent chemistry routes
Simulate fracture toughness of ceramic matrix composites under hypersonic loads
Develop bio-inspired nacre composites and map toughening mechanisms
Assess microplastic fiber release from biodegradable fashion textiles
Draft a commercialization roadmap for solid-state lithium-sulfur pouch cells
Engineer breakthrough materials for energy, health, and sustainability.
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