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Sustainable energy solutions via novel material engineering

Showing 73-84 of 409 articles

Accelerating solid-state battery commercialization via sulfide-based electrolyte optimization

solid-state batteries sulfide electrolytes ionic conductivity energy storage battery degradation

Optimizing perovskite-based carbon capture membranes for industrial flue gas treatment

perovskite membranes carbon capture flue gas separation industrial emissions material science

Through 2030 materials development for self-healing perovskite solar cells

perovskites solar cells self-healing renewable energy material science

Using nanoscale mixing to optimize solid-state battery electrolytes for lunar rovers

nanoscale mixing solid-state batteries lunar rovers electrolyte optimization space-grade materials

Enhancing semiconductor performance via self-assembled monolayer doping for precise impurity control

monolayer doping semiconductor fabrication impurity control nanoscale engineering dopant diffusion

Optimizing perovskite solar cell stability under extreme humidity conditions

perovskite solar cells humidity degradation encapsulation materials accelerated aging tropical energy

Designing million-year nuclear waste isolation systems with self-healing materials

nuclear waste self-healing materials geological storage radiation resistance long-term isolation

Harnessing waste-heat thermoelectrics with cosmological constant evolution theories

thermoelectrics waste-heat recovery cosmology energy conversion theoretical physics

Within attosecond timeframes: tracking electron correlations in high-temperature superconductors

attosecond physics superconductivity electron dynamics pump-probe spectroscopy quantum materials

With perovskite-silicon tandem cells exceeding 35% photovoltaic efficiency limits

perovskite solar cells tandem photovoltaics renewable energy materials science efficiency optimization

Designing 10,000-year stable materials for nuclear waste encapsulation

nuclear waste material stability composites radiation shielding long-term storage

Via microwave-assisted synthesis of perovskite solar cells with 100-year maintenance cycle additives

microwave synthesis perovskite solar cells maintenance cycles nanocomposites renewable energy