Latest Articles for Materials Science

Research shows how two materials can improve spin manipulation for electronics.

New findings confirm the existence of the Orbital Hall Effect in experimental settings.

MXenes show promise in catalyzing CO2 reduction for renewable energy production.

Discover how impurities in metals lead to unique electron behaviors.

Unlocking advancements in electronics through the unique behavior of electron spins.

Investigating charge ordering and structural effects on superconductivity in nickelates.

Study reveals how temperature and composition affect superconducting properties in films.

Exploring the simulation of light-matter interactions using quantum computing.

New sensor technology improves detection of magnetic fields from skyrmions.

This study examines low-porosity structures inspired by biological designs for energy absorption.

Exploring the impact of quantum oscillations on electronic properties in metals.

New methods using GaAs WGMRs promise improved THz radiation applications.

A look at how brittle materials break under stress and its implications.

A look into methods for calculating correlation energies using Random Phase Approximation.

Exploring the potential of graphene multilayers for superconductivity and its unique properties.

Research reveals unique electron behaviors in delta-doped LaSrIrO materials.

Research focuses on magnetic behaviors of cobalt and iridium in double perovskites.

Researchers investigate mobility edges in novel quasiperiodic mosaic lattices.

This article simplifies Active Ising Models, revealing insights into flocking dynamics.

A look into quasiperiodic functions and their significance in science.

A pioneering technique combines deep learning and physics for faster imaging.

Exploring the link between magnetic order and superconductivity, focusing on Kramers' states.

Examining how deep defects shape semiconductor properties and applications.

Research reveals exciting behaviors of exciton-polarons in transition-metal dichalcogenides through advanced techniques.

An exploration of the non-local Cahn-Hilliard equation and its implications in materials science.

Explore how fiber networks respond to different forces and their elasticity.

A platform for enhancing benchmarking in materials science research.

Research on windmill lattice reveals potential for new magnetic behaviors.

Study of how electric and magnetic fields affect planar fermions.

A look at superheavy elements and their implications for ultradense matter.

Study examines how chromium modifies strontium hexaferrite's structure and magnetic properties.

Research explores quantum critical points and their impact on material behavior.

New research reveals unique behaviors of surface electrons in topological insulators with fractal dimensions.

CuZnGeTe shows promise in converting heat to electricity through unique properties.

Chiral phonons show strong magnetic responses, promising advancements in material science.

Examining how quantum systems lose their distinct properties through interactions.

Exploring two new methods for effective gradient flow solutions.

Research reveals unique superconductivity characteristics in ultrathin FeSe films layered on SrTiO.

Proteinoid microspheres offer unique properties for computing and medicine.

Study of dumbbell particles reveals changing patterns with pressure and temperature.