Self-healing materials for aerospace applications using dynamic covalent chemistry
self-healing materials
aerospace
dynamic covalent bonds
composites
polymers
Preparing for 2032 processor nodes through 3D monolithic integration of quantum dots
quantum dots
3D integration
processor nodes
quantum computing
monolithic stacking
Hybrid bonding techniques for chiplet integration in next-generation GPUs
hybrid bonding
chiplet integration
GPU design
3D packaging
interconnects
Mitigating self-heating effects in 3nm semiconductor nodes using diamond heat spreaders
3nm nodes
diamond heat spreaders
transistor cooling
semiconductor reliability
thermal management
Engineering ultra-precise semiconductor interfaces via self-assembled monolayer doping techniques
self-assembled monolayers
semiconductor doping
nanoscale engineering
surface chemistry
electronic materials
With zero-gravity 3D printing of metastable alloy structures
microgravity
3D printing
metallurgy
space manufacturing
amorphous metals
Optimizing enzyme turnover numbers for industrial biocatalysis in 2030 materials development
biocatalysis
enzyme kinetics
sustainable chemistry
material science
industrial applications
Through back-end-of-line thermal management in 3nm chiplet architectures
BEOL thermal management
3nm technology
chiplet cooling
semiconductor packaging
microfluidic heat sinks
At Josephson junction frequencies for ultra-low-noise quantum amplifier design
Josephson junctions
quantum amplification
microwave electronics
superconducting circuits
noise suppression
Preparing for 2032 processor nodes using carbon nanotube vias
carbon nanotubes
processor nodes
semiconductor scaling
interconnects
Moore's Law
Enhancing battery longevity through 3D monolithic integration of solid-state electrolytes
solid-state batteries
3D integration
energy storage
electrolyte design
longevity
Targeting plastic-eating enzymes synchronized with solar cycles for waste degradation
plastic degradation
enzymatic breakdown
solar synchronization
waste management
bioremediation