UC MSE unites solid-state physics, chemistry, and mechanics. Students operate electron microscopes, grow 2-D materials, and model alloy phase diagrams.
CVD synthesis of graphene/hBN heterostructures for flexible electronics
Phase-field modeling of additive-manufactured titanium grain growth
Magnetocaloric material screening for solid-state refrigeration
Life-cycle assessment of bio-derived polymer composites
In situ TEM observing nanoparticle sintering at elevated temperatures
Policy memo on critical mineral supply chains for battery cathodes
3-D printed lattice implants optimizing bone in-growth and modulus match
Machine-learning prediction of glass-forming ability in metallic alloys
VR atomic-level visualization of dislocation motion under stress
Electrochemical testing of solid-state electrolytes for Li-metal batteries
Augmented-reality lab manual aligning XRD peaks to crystal structures
Self-healing polymer coating experiment using microcapsule chemistry
High-entropy oxide synthesis exploring oxygen-ion conductivity
Crowdsourced database of open-access material property datasets
Critical essay on nanotoxicology and occupational safety standards
Design of plasmonic metasurfaces for ultrasensitive biosensing
Reyclability study of carbon-fiber thermoplastic composites
Spin-tronic material growth via MBE and magneto-transport measurement
Interactive outreach kit demonstrating shape-memory alloys for K-12
Finite-element fatigue simulation of next-gen aerospace aluminum
Invent the materials powering tomorrow with UC MSE.
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