Modeling neural networks with phase-change material synapses for energy-efficient neuromorphic computing
neuromorphic computing
phase-change materials
artificial synapses
energy efficiency
memristors
Reengineering Renaissance designs with modern materials for sustainable architecture
biomimetic materials
sustainable architecture
historical engineering
structural optimization
cultural preservation
Automated synthesis of rare-earth doped nanoparticles with flow chemistry robots
flow chemistry
nanomaterials synthesis
rare-earth doping
automated reactors
upconversion phosphors
Through quantum dot charge trapping in next-generation photovoltaics
quantum dots
photovoltaics
charge trapping
solar energy
nanomaterials
Exploring exciton diffusion lengths in perovskite solar cells for enhanced energy conversion
exciton diffusion
perovskite solar cells
energy conversion
photovoltaics
charge transport
Employing ruthenium interconnects for next-generation semiconductor energy efficiency
ruthenium interconnects
semiconductor scaling
energy-efficient computing
advanced metallization
chip design
Connecting medieval alchemy with materials discovery for novel catalysts
medieval alchemy
catalyst discovery
materials science
historical methods
chemical synthesis
Using ferroelectric hafnium oxide for ultra-low-power non-volatile memory devices
ferroelectric materials
hafnium oxide
non-volatile memory
energy efficiency
semiconductor technology
Employing retrieval-augmented generation to accelerate materials discovery for solid-state batteries
retrieval-augmented generation
AI materials discovery
solid-state batteries
electrolyte design
machine learning
Optimizing waste-heat thermoelectrics for lunar regolith additive manufacturing systems
waste-heat recovery
thermoelectrics
lunar regolith
additive manufacturing
space technology
Evaluating 10,000-year material stability of nuclear waste containment ceramics under deep geological conditions
nuclear waste
material degradation
ceramic composites
geological storage
long-term stability
Enhancing quantum dot stability through plasma-enhanced atomic layer deposition
quantum dots
plasma-enhanced ALD
optoelectronics
nanocoating
stability