Sustainable energy solutions via novel material engineering

Exploring quantum coherence limits in high-temperature superconducting materials

quantum coherence high-temperature superconductors critical temperature quasiparticles decoherence

Optimizing hydrogen storage in metal-organic frameworks under fluctuating pressure conditions

hydrogen storage metal-organic frameworks pressure fluctuations adsorption kinetics renewable energy

Self-heating mitigation strategies for 3nm semiconductor nodes using 2D materials

2D materials thermal management semiconductor scaling nanoelectronics heat dissipation

Using topological insulators for spintronics in low-power quantum memory devices

topological insulators spintronics quantum memory low-power electronics condensed matter physics

Optimizing perovskite solar cell stability via high-throughput catalyst screening

perovskite solar cells catalyst screening material stability machine learning renewable energy

In atmospheric water harvesting using 2D material heterostructures

atmospheric water harvesting 2D materials heterostructures adsorption sustainable water

Uniting glacier physics with semiconductor design for ultra-low-power electronics

glacier physics semiconductor design low-power electronics biomimicry material science

Employing germanium-silicon strain engineering for ultra-low-power quantum dot transistors

strain engineering germanium-silicon quantum dots low-power electronics bandgap engineering

Preparing for 2032 processor nodes with ruthenium interconnects and advanced lithography

semiconductor ruthenium interconnects processor nodes lithography Moore's Law

Designing room-temperature superconductors via machine learning and high-throughput experimentation

superconductivity machine learning high-throughput screening materials informatics energy efficiency

Enhancing waste-heat recovery in industrial systems using nanostructured thermoelectric materials

thermoelectrics waste-heat recovery nanotechnology energy harvesting industrial efficiency

For solid-state battery breakthroughs in high-energy-density electric vehicle applications

solid-state batteries ceramic electrolytes electric vehicles energy density fast charging