For next-generation smartphone integration of quantum dot-based HDR microdisplays
quantum dots
microdisplays
HDR
mobile tech
nanophotonics
Exploring 10,000-year material stability for deep geological nuclear waste storage
nuclear waste
material degradation
geological storage
long-term stability
radiation shielding
For photonic quantum memory: leveraging rare-earth-doped crystals for scalable networks
quantum memory
photonics
rare-earth crystals
quantum networks
entanglement storage
Using cold spray additive techniques to repair aerospace alloys in microgravity conditions
cold spray additive manufacturing
aerospace alloys
microgravity repair
in-space fabrication
metal deposition
Connecting medieval alchemy with modern materials discovery for novel catalysts
medieval alchemy
materials discovery
heterogeneous catalysis
historical methods
novel catalysts
Optimizing backside power delivery networks for next-generation 3D integrated circuits
3D ICs
power delivery
thermal management
interconnects
semiconductor scaling
Optimizing biodegradable electronics through transient material engineering
biodegradable electronics
transient materials
eco-friendly devices
decomposition triggers
sustainable technology
Using cold spray additive techniques to repair high-stress aerospace components
cold spray
additive manufacturing
aerospace repair
metal bonding
fatigue resistance
Through hybrid bonding for chiplet integration in next-gen quantum computing architectures
hybrid bonding
chiplet integration
quantum computing
3D packaging
qubit scalability
Designing self-heating mitigation strategies for 3nm semiconductor nodes using mechanochemical reactions
semiconductor cooling
mechanochemistry
thermal management
nanofabrication
Moore's Law
Connecting medieval alchemy with modern materials discovery in picocubic reaction chambers
alchemy
nanomaterials
high-throughput synthesis
historical science
phase discovery
Enhancing semiconductor performance through self-assembled monolayer doping for nanoelectronics
monolayer doping
semiconductors
nanoelectronics
surface chemistry
device performance