Designing self-healing materials for infrastructure with 10,000-year degradation resistance
self-healing materials
nanotechnology
infrastructure longevity
polymer science
corrosion resistance
Blending ancient materials science with nanotechnology: reverse-engineering Roman concrete for modern applications
Roman concrete
nanotechnology
ancient materials
sustainable construction
reverse-engineering
Enhancing battery longevity via self-healing polymers and AI-driven degradation prediction
self-healing polymers
battery degradation
AI prediction
energy storage
material science
Harvesting energy from atmospheric humidity using graphene-based metamaterials
graphene metamaterials
atmospheric energy harvesting
humidity power
renewable energy
material innovation
Designing 10,000-year stable encapsulation materials for nuclear waste storage
nuclear waste
material stability
long-term storage
ceramics
corrosion
Improving perovskite-silicon tandem cell efficiency through 2D material interfacial layers
perovskite-silicon tandem
2D materials
solar efficiency
heterostructures
photovoltaics
Through 2030 materials development for ultra-high-temperature superconducting magnets
superconducting materials
fusion energy
high-temperature superconductors
particle physics
material science
Optimizing perovskite solar cell stability via computational lithography for 15-year ROI horizons
perovskite solar cells
computational lithography
ROI optimization
photovoltaics
material degradation
At Josephson junction frequencies for room-temperature superconductor characterization
Josephson junctions
superconductivity
high-frequency dynamics
material characterization
room-temperature SC
Achieving 2050 carbon neutrality via directed self-assembly of block copolymer materials
block copolymers
directed self-assembly
carbon neutrality
nanomaterials
sustainability
Advancements in solid-state battery breakthroughs for electric aviation applications
solid-state batteries
electric aviation
energy density
electrolyte stability
fast charging
Using 2D material heterostructures for ultra-efficient photothermal water desalination
2D materials
water desalination
photothermal conversion
graphene heterostructures
solar-driven purification