Optimizing nuclear thermal propulsion for fast interplanetary missions to Mars and beyond
nuclear thermal propulsion
interplanetary travel
Mars missions
spacecraft efficiency
propulsion technology
Optimizing redox flow battery performance via advanced electrolyte formulations and flow dynamics
redox flow batteries
electrolyte optimization
energy storage
flow dynamics
renewable energy
Through 2030 materials development for self-healing perovskite solar cells
perovskites
solar cells
self-healing
renewable energy
material science
Enhancing semiconductor performance via self-assembled monolayer doping for precise impurity control
monolayer doping
semiconductor fabrication
impurity control
nanoscale engineering
dopant diffusion
Optimizing lunar base infrastructure for radiation shielding using locally sourced regolith materials
lunar regolith
radiation shielding
habitat construction
space architecture
material science
Using cold spray additive techniques to repair high-temperature aerospace components in situ
cold spray additive manufacturing
aerospace repair
in-situ maintenance
high-temperature materials
deposition techniques
Through back-end-of-line thermal management to enable 3D-stacked neuromorphic processor scaling
back-end-of-line cooling
3D integration
neuromorphic processors
thermal management
chip scaling
Catalyst discovery algorithms for petapascal pressure regime reactions
high-pressure chemistry
catalyst discovery
machine learning
petapascal regimes
reaction optimization
For next-generation smartphone integration of quantum dot-based ambient light sensors
quantum dots
ambient light sensors
smartphone displays
energy efficiency
nanotechnology
Optimizing redox flow battery efficiency through novel electrolyte formulations
redox flow battery
electrolyte optimization
energy storage
renewable integration
grid-scale
Designing million-year nuclear waste isolation systems with self-healing materials
nuclear waste
self-healing materials
geological storage
radiation resistance
long-term isolation
Reengineering Renaissance designs using cold spray additive manufacturing techniques
additive manufacturing
Renaissance engineering
cold spray
historical replication
material science