Sustainable energy solutions via novel material engineering

Solid-state battery breakthroughs through sulfide-based electrolyte optimization

solid-state batteries sulfide electrolytes energy storage battery safety material science

Harnessing topological insulators for low-energy spintronic memory devices

topological insulators spintronics memory devices energy efficiency quantum materials

Reimagining Victorian-era inventions with modern nanomaterials for sustainable energy

Victorian technology nanomaterials energy harvesting historical engineering sustainable design

Asteroid spectral mining for exotic high-temperature superconductors in metallic meteorites

space resources unconventional superconductivity meteorite spectroscopy critical temperature interplanetary prospecting

Enhancing perovskite-silicon tandem cells with 2D material interfacial layers for stability

perovskite solar cells 2D materials interfacial engineering photovoltaics tandem cells

Autonomous lab assistants for high-throughput screening of solid-state battery electrolytes

autonomous labs solid-state batteries high-throughput screening robotics AI-driven discovery

In-situ water ice utilization for Martian construction materials via microwave sintering

ISRU Martian construction water ice sintering regolith composites space habitats

At plasma oscillation frequencies, engineering metamaterials for ultra-precise energy filtering

plasma oscillations metamaterials energy filtering electromagnetic waves nanophotonics

Unconventional methodologies for 3-year commercialization of perovskite solar cells

perovskite solar cells commercialization unconventional methods photovoltaics rapid scaling

For megayear material degradation in deep geological nuclear waste storage

nuclear waste storage material degradation corrosion modeling geological timescales radiation effects

Developing room-temperature superconductors with perovskite-based materials for lossless power grids

room-temperature superconductors perovskites power grids energy efficiency materials science

Blending ancient materials science with nanotechnology to develop self-healing Roman concrete analogs

Roman concrete self-healing materials nanotechnology ancient engineering sustainable construction