Duke’s Materials Science & Engineering Ph.D. empowers researchers to create perovskite photovoltaics, bio-resorbable metals, and quantum-dot photonics. Doctoral fellows iterate atomic-layer deposition recipes in the nanofab, use AI to predict fracture in lattice metamaterials, and prototype circular economy routes for critical minerals. Industry residencies turn lab breakthroughs into climate-tech ventures.
Solid-state electrolyte suppressing dendrites in Li-metal batteries
MXene supercapacitors for grid-scale storage
3-D printed magnesium alloy implant biodegradation study
Quantum-dot photodetectors tuned for night-vision wavelengths
ML discovery of low-carbon cement formulations
Hydrogel scaffold with piezoelectric nanoparticles for nerve repair
Perovskite–silicon tandem solar cell stability via polymer encapsulation
Photonic crystal cavity for on-chip quantum emitters
Blockchain tracking of ethically sourced cobalt supply chains
Citizen-science corrosion mapping on coastal infrastructure
VR module teaching crystallographic defects to undergrads
Design the materials powering a sustainable future at Duke.
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