MSE PhD candidates at Georgia Tech access aberration-corrected TEMs, synchrotron beamlines, and additive-manufacturing foundries. Research spans solid-state batteries, spin-orbitronics, and self-healing composites, often spinning out to DOE Energy Earthshot consortia or climate-tech startups.
Machine-learning discovery of lead-free perovskite absorbers
3-D printed metamaterial lattice for blast energy absorption
Self-healing epoxy activated by mechano-chromic linkers
Graphene-oxide membrane desalination with antifouling peptides
High-entropy alloy coatings for hypersonic leading edges
Solid-electrolyte interphase study in fast-charge Li-metal cells
Recyclable carbon-fiber precursor from lignin biopolymer
Nanocellulose aerogel insulation for cryogenic tanks
Quantum-dot emissive layer optimization for microLED displays
Bio-inspired nacre plywood for lightweight armor
Phase-field simulation of dendrite suppression in Zn batteries
Atomic-layer-deposited tunnel barrier for superconducting qubits
Circular polymer depolymerization via organocatalysis
Additive-manufacturing path planning minimizing residual stress
Life-cycle comparison of steel vs. bamboo structural beams
Engineer matter—from atoms to gigafactories—for a sustainable future.
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