Atomfair Brainwave Hub: SciBase II / Renewable Energy and Sustainability / Sustainable energy solutions via novel material engineering

Sustainable energy solutions via novel material engineering

Showing 301-312 of 409 articles

For solid-state battery breakthroughs using sulfide-based electrolytes

Probing room-temperature superconductors through solvent selection engines for material discovery

Using hydrogen storage metal-organic frameworks for regenerative fuel cell applications

Enhancing solar cell efficiency through germanium-silicon strain engineering at plasma oscillation frequencies

Enhancing perovskite-silicon tandem solar cells with ruthenium interconnects for 50-year durability

Microwave-assisted synthesis of solid-state battery electrolytes with atomic layer etching precision

Stabilizing perovskite-silicon tandem cells through real-time crystallization control and interfacial engineering

Achieving million-year nuclear waste isolation through diamondoid metamaterial containment barriers

Exploring ferroelectric hafnium oxide for next-generation non-volatile memory devices

Considering 10,000-year material stability for nuclear waste containment solutions

Blending ancient Roman concrete formulations with carbon nanotube reinforcement

Via quantum dot-sensitized solar cells for space-based energy harvesting