Stanford’s Materials Science and Engineering program bridges physics, chemistry, and engineering to create next-gen materials for modern challenges. These project ideas inspire undergraduates to research and develop sustainable, efficient, and high-performance materials for real-world applications.
Development of Shape Memory Alloys for Aerospace Applications
Design of Self-Healing Concrete Using Microcapsules
Graphene-Based Supercapacitors for Energy Storage
Flexible Organic Solar Cells with Improved Efficiency
Nano-Coatings for Corrosion-Resistant Marine Materials
High-Temperature Ceramics for Jet Engine Components
Biodegradable Polymers for Single-Use Medical Devices
Smart Windows with Thermochromic Glass for Energy Saving
Metal-Organic Frameworks (MOFs) for Gas Separation
Superhydrophobic Surfaces for Anti-Icing Applications
Recyclable Composites for Sustainable Construction
3D Printed Biomaterials for Bone Regeneration
Phase-Change Materials for Passive Building Cooling
Thin Film Fabrication for Wearable Electronics
Nanostructured Thermoelectric Materials for Power Harvesting
Magneto-Optical Materials for High-Density Data Storage
Polymer Blends for Improved Biocompatibility
Solid-State Electrolytes for Next-Gen Lithium Batteries
Surface Engineering for Anti-Bacterial Medical Implants
X-Ray Diffraction Analysis for Crystal Structure Studies
From nanoengineering to sustainable composites, Collexa empowers Stanford MSE students to innovate in labs, industries, and real-world challenges.
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