Latest Articles for Materials Science

Exploring mechanical systems that adjust stiffness based on external forces.

A new cuprate, Sr Ca CuO, shows superconductivity at 90 K with unique atomic structure.

New insights on boron and aluminum doping effects on silicon's electronic structure.

A look into the unique properties and challenges of quantum spin liquids.

Study reveals complex interactions between superconductivity and spin density waves.

Research highlights how quantum systems reach thermal equilibrium with their environments.

Study reveals how laser pulses affect electron movement in ZrTe.

New machine learning methods identify potential high-temperature superconductors effectively.

Research reveals insights into twin boundaries and their impact on material properties.

Study highlights the behavior of directed polymers in changing environmental conditions.

New method enhances accuracy of ionization potentials and fundamental gaps.

New photonic crystals improve light behavior, opening doors to innovative technologies.

Research reveals new insights into one-dimensional topological superconductivity using van der Waals heterostructures.

Study reveals how pressure alters spin-density wave order in BaFe2As2.

Scientists study quantum skyrmions for advanced applications in technology and data storage.

Research shows how light affects particles in liquid crystals for smart material applications.

Examining how polyelectrolyte solutions interact with charged surfaces in confined spaces.

Chern insulators exhibit unique edge conductivity while being insulative in the bulk.

Study reveals conductance behavior influenced by magnetic fields in specific junction structures.

This material shows unique electronic and magnetic properties due to its structure.

Research on two-phase metamaterials enhances understanding of resonances and their applications.

Exploring unique properties and applications of stealthy hyper uniform materials.

Examining the unique properties and phases of semiflexible polymers under varying conditions.

New models improve predictions of molecular interactions and transport processes.

Exploring the unique light properties of buckled monolayers and their technological implications.

Researchers enhance graphene FETs for improved terahertz signal generation and applications.

A study of magnetic properties in Py/Gd bilayer for advanced technology.

Study reveals insights into the unique magnetism of pyrochlore ruthenates.

A new method connects machine learning and mutual information in classical spin systems.

Research shows how unique properties in graphene junctions improve light interactions.

New insights into non-Hermitian systems reveal fascinating fractal patterns and exceptional points.

Research on twisted WSe₂ reveals unique insulating properties and electronic behaviors.

Study reveals how disorder affects graphene's electrical properties.

Research reveals the behavior of massless Dirac fermions in organic materials under pressure.

Research reveals unique behaviors in quantum spin systems with non-Hermitian properties.

Researchers uncover complex superconducting phases in CeRh As with unique atomic structures.

A new device manipulates sound waves using adjustable phononic crystals for various applications.

Learn about moiré heterostructures and their fascinating electronic properties.

Research on graphene reveals key insights into superconductivity and Cooper pair dynamics.

Examining how electrical energy affects molecular bonds in nanoelectronic devices.