Stanford’s M.S. in Materials Science and Engineering blends physics, chemistry, and engineering to explore material behavior, structure, and innovation. These project ideas reflect key frontiers like energy devices, nanostructures, biocompatibility, and quantum-scale systems.
Nanostructured Coatings for Anti-Corrosion and Thermal Resistance
Quantum Dot-Based Solar Cells for High-Efficiency Photovoltaics
Design of Self-Healing Polymers for Structural Applications
Graphene-Based Supercapacitors for Next-Gen Energy Storage
Smart Packaging Using Biodegradable Sensor-Embedded Films
Atomic Layer Deposition for Flexible Transparent Electronics
Development of Bioinspired Adhesives for Wet Environments
Characterization of Perovskite Crystals for Light Emission
Materials Informatics Using AI for Alloy Discovery
Magnetic Nanoparticles for Targeted Hyperthermia Therapy
Piezoelectric Polymers for Wearable Energy Harvesting
Recyclable Composite Materials for Circular Manufacturing
3D Printed Ceramic Structures for Aerospace Applications
Thermally Stable Polymers for High-Speed Electronics
Nanoindentation Study of Metallic Glasses
Conductive Hydrogels for Biomedical Implants
Electrochemical Analysis of Solid-State Battery Interfaces
Crystallographic Texture Effects in Additive Manufactured Metals
Advanced Coatings for Thermal Barrier Applications in Turbines
AI-Powered Phase Diagram Prediction Using Material Databases
From characterizing new materials to simulating atomic behavior, Collexa supports Stanford MSE students with guidance on research design, lab techniques, and publication support.
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