Employing ruthenium interconnects for next-generation smartphone integration to reduce power consumption
ruthenium interconnects
smartphone integration
power efficiency
semiconductor scaling
advanced materials
Harnessing waste-heat thermoelectrics for industrial energy recovery systems
thermoelectric materials
energy harvesting
industrial efficiency
waste-heat recovery
solid-state cooling
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
Blending ancient materials science with nanotechnology for sustainable high-performance composites
ancient materials
nanotechnology
sustainable composites
high-performance materials
biomimicry
Engineering self-assembled monolayers for ultra-shallow junction doping in photovoltaics
monolayer doping
photovoltaics
surface chemistry
semiconductor devices
renewable energy
Reimagining Victorian-era inventions with modern nanomaterials for sustainable energy solutions
Victorian inventions
nanomaterials
sustainable energy
mechanical design
retro-innovation
Optimizing hydrogen fuel production via machine learning catalyst discovery algorithms
hydrogen production
electrocatalysts
machine learning
renewable energy
materials science
Planning post-2100 nuclear waste storage with self-healing geopolymer composites
nuclear waste management
geopolymers
radiation shielding
deep geological repositories
material aging
Via predictive maintenance AI in fusion reactor plasma-facing components
fusion energy
plasma-material interactions
anomaly detection
tungsten erosion
real-time diagnostics
Enhancing exciton diffusion lengths in organic photovoltaics with molecular engineering
excitonics
organic photovoltaics
energy transport
molecular design
renewable energy
Enhancing solid-state battery performance through ferroelectric hafnium oxide interfaces
solid-state batteries
ferroelectric materials
hafnium oxide
interfacial engineering
energy storage
Optimizing perovskite-silicon tandem cells for next-generation high-efficiency photovoltaic systems
perovskite-silicon tandem
photovoltaics
solar efficiency
material stability
renewable energy