Sustainable energy solutions via novel material engineering

Investigating quantum coherence limits in room-temperature superconductors for energy transmission

quantum coherence superconductors energy transmission room-temperature materials science

Through quantum dot charge trapping for ultra-efficient solar energy conversion

quantum dots photovoltaics charge trapping solar energy nanotechnology

Extending battery lifespan via quantum dot charge trapping for next-generation smartphone integration

quantum dots charge trapping smartphone batteries energy retention nanotechnology

Boosting solar efficiency with perovskite-silicon tandem cells under real-world irradiance conditions

perovskite-silicon tandem cells solar efficiency photovoltaics renewable energy irradiance testing

Connecting medieval alchemy with materials discovery for sustainable catalyst design

medieval alchemy materials discovery sustainable catalysts historical inspiration chemical synthesis

Reimagining Victorian-era inventions with modern nanotechnology for sustainable energy solutions

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Combining ancient and modern methods for sustainable concrete alternatives

ancient materials modern chemistry sustainable concrete geopolymers carbon reduction

At petapascal pressure regimes, synthesizing metastable superhydrides for room-temperature superconductivity

petapascal pressure superhydrides room-temperature superconductivity high-pressure synthesis metastable materials

Planning post-2100 nuclear waste storage with self-healing geopolymer barriers

nuclear waste geopolymers self-healing materials long-term storage radiation containment

Employing germanium-silicon strain engineering for high-performance quantum dot solar cells

strain engineering quantum dots photovoltaics germanium-silicon heterostructures

Optimizing perovskite tandem solar cells for 2024-2026 deployment in urban environments

perovskite tandem cells urban solar scalability stability renewable energy

Synthesizing future-historical approaches to predict next-gen battery material breakthroughs

battery materials machine learning historical trends energy storage material discovery