Sustainable energy solutions via novel material engineering

Leveraging neuromorphic computing architectures for real-time analysis of exciton diffusion lengths

neuromorphic computing exciton diffusion photovoltaics real-time analysis energy materials

Sustainable hydrogen storage via microwave-assisted synthesis of metal-organic frameworks

hydrogen storage metal-organic frameworks microwave synthesis sustainable energy porous materials

At exciton diffusion lengths in perovskite solar cell optimization

exciton diffusion perovskite solar cells renewable energy photovoltaics charge transport

Optimizing energy conversion efficiency in artificial photosynthesis through quantum dot sensitization

artificial photosynthesis quantum dots energy conversion charge separation nanomaterials

Optimizing perovskite-silicon tandem cells for high-efficiency solar energy conversion in arid climates

perovskite-silicon tandem solar efficiency arid climate photovoltaics material stability energy conversion

Accelerating carbon capture material discovery via high-throughput catalyst screening

high-throughput screening carbon capture metal-organic frameworks combinatorial chemistry climate tech

Via perovskite-based carbon capture membranes for high-efficiency industrial emissions scrubbing

perovskite membranes carbon capture gas separation industrial decarbonization material science

Evaluating 10,000-year material stability for nuclear waste storage in lunar repositories

nuclear waste storage material stability lunar repositories long-term degradation space sustainability

Optimizing waste-heat thermoelectrics using rare-earth-free skutterudite compounds

thermoelectrics waste-heat recovery skutterudites energy harvesting rare-earth alternatives

Employing germanium-silicon strain engineering for next-generation quantum dot solar cells by 2026

strain engineering quantum dots photovoltaics germanium-silicon renewable energy

Enhancing solar cell efficiency through 3D monolithic integration of perovskite-silicon tandem structures

perovskite-silicon tandem 3D integration photovoltaics energy harvesting monolithic stacking

For room-temperature superconductors via high-pressure hydrogen-rich compound synthesis

room-temperature superconductors high-pressure physics hydrogen compounds metastable materials quantum materials