Targeting 2025 regulatory approval for hydrogen storage metal-organic frameworks
MOFs
hydrogen storage
regulatory pathways
clean energy
material science
In quantum vacuum fluctuations for novel energy harvesting at nanoscale interfaces
quantum fluctuations
zero-point energy
nanoscale energy harvesting
Casimir effect
metamaterials
Using computational retrosynthesis to optimize rare-earth-free catalyst designs for hydrogen fuel cells
computational retrosynthesis
rare-earth-free catalysts
hydrogen fuel cells
AI-driven design
sustainable energy
Enhancing carbon capture efficiency via perovskite-based membranes with embedded biocatalysts
perovskite membranes
biocatalysis
carbon capture
CO2 sequestration
hybrid materials
Reimagining Victorian-era inventions with modern nanomaterials for energy harvesting applications
Victorian inventions
nanomaterials
energy harvesting
retro-innovation
mechanical design
Scaling perovskite-based carbon capture membranes for industrial emissions with solvent-free processing
perovskite membranes
carbon capture
solvent-free processing
industrial emissions
scalable materials
Employing germanium-silicon strain engineering for ultra-low-power quantum computing
quantum computing
strain engineering
germanium-silicon
low-power electronics
heterostructures
Through million-year nuclear waste isolation using self-healing ceramic matrices
nuclear waste isolation
self-healing ceramics
radiation resistance
long-term storage
material science
Through solvent selection engines for high-throughput discovery of superconducting materials
solvent selection engines
superconductors
high-throughput screening
materials science
computational chemistry
For solid-state battery breakthroughs using high-entropy alloy electrolytes
solid-state batteries
high-entropy alloys
electrolytes
energy storage
materials science
Accelerating renewable hydrogen production through high-throughput catalyst screening of transition metal chalcogenides
green hydrogen
electrocatalysis
materials discovery
high-throughput screening
renewable energy
Enhancing solid-state battery performance through femtosecond laser ablation of ceramic electrolytes
solid-state batteries
femtosecond lasers
ceramic electrolytes
interfacial engineering
energy storage