Uniting glacier physics with semiconductor design for advanced thermal management
glacier physics
semiconductor cooling
thermal management
biomimicry
electronics engineering
Uniting glacier physics with semiconductor design for next-gen thermal management solutions
glacier physics
semiconductor cooling
bio-inspired design
thermal management
microelectronics
Optimizing germanium-silicon strain engineering for next-generation photonic integrated circuits
Ge-Si alloys
photonic strain engineering
integrated optics
bandgap tuning
semiconductor lasers
Uniting glacier physics with semiconductor design for novel thermal management solutions
glacier physics
thermal management
semiconductor cooling
material science
heat transfer
Enhancing quantum dot efficiency with germanium-silicon strain engineering for next-gen photovoltaics
quantum dots
strain engineering
photovoltaics
germanium-silicon
charge mobility
Uniting glacier physics with semiconductor design for ultra-low-power cryogenic electronics
cryogenic electronics
glacier physics
heat dissipation
semiconductor design
ultra-low-power
Optimizing back-end-of-line thermal management via directed self-assembly of block copolymers
thermal management
block copolymers
semiconductor cooling
self-assembly
BEOL
Through back-end-of-line thermal management in 3D integrated circuits for next-gen computing
thermal management
3D ICs
semiconductors
heat dissipation
electronics
Optimizing quantum dot charge trapping for ultra-high-density data storage beyond petabyte scales
quantum dots
charge trapping
data storage
nanoscale electronics
energy-efficient computing
Combining gate-all-around nanosheet transistors with synaptic time delays for neuromorphic computing
neuromorphic engineering
semiconductor design
artificial synapses
low-power computing
nanoscale devices
Optimizing hybrid bonding techniques for chiplet integration in advanced 3D monolithic systems
hybrid bonding
chiplet integration
3D monolithic
advanced packaging
semiconductor scaling
Employing silicon photonics co-integration with ferroelectric hafnium oxide for low-power optoelectronic devices
silicon photonics
ferroelectric hafnium oxide
optoelectronics
low-power devices
co-integration