Sustainable energy solutions via novel material engineering

Optimizing neural network efficiency with phase-change material synapses for neuromorphic computing

neuromorphic computing phase-change materials synaptic plasticity energy efficiency artificial intelligence

At petapascal pressure regimes to synthesize room-temperature superconducting hydrides

high-pressure physics superconductivity metallic hydrogen quantum materials extreme conditions

Using topological insulators for energy-efficient spintronic memory devices

topological insulators spintronics memory devices energy efficiency quantum materials

Using hydrogen storage metal-organic frameworks for high-density energy applications

hydrogen storage MOFs clean energy nanoporous materials fuel cells

Via plasma-enhanced atomic layer deposition for ultra-thin solar coatings

atomic layer deposition solar coatings thin films plasma-enhanced photovoltaics

Enhancing atmospheric water harvesting efficiency through bioinspired nanostructured surfaces

water harvesting bioinspired materials nanostructures condensation arid climates

Via self-assembled monolayer doping for next-gen solar cells

self-assembly monolayer doping photovoltaics energy harvesting nanomaterials

Optimizing redox flow batteries through novel electrolyte formulations and membrane designs

redox flow battery electrolyte optimization membrane design energy storage grid-scale

Employing germanium-silicon strain engineering for ultra-efficient thermoelectric energy harvesting

thermoelectrics strain engineering germanium-silicon energy harvesting heterostructures

With 100-year maintenance cycles: self-healing concrete using microbial-induced calcite precipitation

self-healing concrete microbial precipitation 100-year durability biocementation infrastructure materials

For next-generation smartphone integration of quantum dot-based full-color micro-LEDs

quantum dots micro-LEDs smartphone displays energy efficiency color accuracy

Combining ancient Roman concrete techniques with modern nanotechnology for self-healing infrastructure

Roman concrete nanotechnology self-healing materials sustainable infrastructure civil engineering