UC’s MS in Materials Science & Engineering advances synthesis, characterization, and modeling of metals, polymers, ceramics, and quantum materials for next-gen technologies.
Atomic-layer-deposited solid electrolyte enabling dendrite-free Li metal batteries
High-entropy alloy design for ultra-high-temperature aerospace components
Computational discovery of lead-free perovskites via density-functional screening
Self-healing polymer composites with micro-vascular networks
Synchrotron X-ray tomography of stress corrosion cracking in pipelines
2D transition-metal dichalcogenide heterostructures for valleytronic devices
Photodegradable plastics triggered by visible-light catalysts
Bioinspired nacre-like ceramic panel with superior impact toughness
Machine-learning prediction of glass-forming ability across alloy systems
Electrospun nanofiber scaffold for nerve tissue engineering
Magnetocaloric material synthesis for solid-state refrigeration
Printable quantum-dot ink for micro-LED displays
Life-cycle assessment comparing recyclable thermosets versus thermoplastics
VR lab module teaching crystal lattice defects interactively
White paper on critical minerals supply for battery materials
In-situ TEM study of phase transformations in shape-memory alloys
Cold-spray additive manufacturing of corrosion-resistant coatings
Public outreach kit demonstrating superhydrophobic surfaces
Conference on circular economy in advanced materials manufacturing
Workshop training undergraduates in machine-learning for materials design
Engineer tomorrow’s materials with UC’s innovation-driven MS.
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