Stanford’s M.S. in Materials Science and Engineering prepares students to tackle global challenges in technology, energy, medicine, and sustainability by innovating at the material level. These project ideas span synthesis, characterization, and simulation of advanced materials.
Design and Synthesis of Conductive Polymers for Flexible Electronics
Computational Modeling of Lithium-Ion Diffusion in Battery Electrodes
Biodegradable Packaging Materials from Agricultural Waste
Nanostructured Coatings for Anti-Icing and Self-Cleaning Surfaces
Graphene-Based Sensors for Environmental Monitoring
Material Design for Thermal Barrier Coatings in Jet Engines
Smart Textiles with Embedded Phase Change Materials for Temperature Regulation
Corrosion-Resistant Alloys for Marine Environments
Development of Transparent Ceramics for Optical Devices
Mechanical Characterization of 3D-Printed Lattice Structures
Biocompatible Implants Using Additive Manufacturing
Metal-Organic Frameworks (MOFs) for Gas Storage and Separation
Quantum Dot-Based Materials for Next-Gen Displays
Recyclable Thermoplastics for Sustainable Automotive Parts
Nanoparticle-Stabilized Emulsions for Drug Delivery Systems
Photocatalytic Materials for Water Purification
Design of Shape-Memory Alloys for Biomedical Devices
Hybrid Perovskite Materials for Solar Cells
Machine Learning Models for Predicting Mechanical Properties of Alloys
Energy Harvesting Materials Using Piezoelectric Nanostructures
From nano-coatings to simulation-based materials engineering, Collexa supports Stanford MSE students with experimental setup, data analysis, and thesis documentation.
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