Latest Articles for Materials Science

Exploring the unique electronic properties of multilayer graphene and their implications.

A look into the complex behaviors of nonlinear lattices and their applications.

Investigating how Yttrium affects the electrical properties of Lanthanum Yttrium Cobalt Oxide.

This study reveals how floating magnets form organized clusters under various conditions.

Exploring the unique properties of Fe GeTe and its technological implications.

Research shows CrSb can improve thermoelectric efficiency in bismuth-antimony-telluride.

Scientists enhance flexible solar cells using graphene for better energy conversion.

NMRNet enhances accuracy in predicting chemical shifts using deep learning techniques.

Research reveals how magnons can be controlled for future electronic applications.

Research on magnetic inertia offers insights for faster magnetic devices.

Exploring the potential and applications of spin-polarized antiferromagnetic metals.

A novel approach improves atomic structure modeling for materials science.

Researchers combine machine learning and Bayesian optimization to improve atomic structure arrangement.

AI aids in identifying ionic liquids as propellants for electrospray thrusters.

Researchers investigate multi-gap topological phases using quantum rotors under periodic driving.

Research on BDPA highlights its potential for quantum information processing at room temperature.

Examining chiral properties in polaritonics using GaAs quantum rings and chiral cavities.

This study examines how hexadecane affects friction on graphite surfaces.

New technique sheds light on defects impacting quantum computing performance.

New quantum method improves molecular energy calculations significantly.

Research combines superconductivity studies with machine learning for new insights.

Examining how electrostatic patches affect scientific measurements across various experiments.

Exploring unique behaviors in non-Hermitian systems through exceptional points.

A deep dive into fractional quantum Hall states and their implications for technology.

This study examines the Geometric Binder Cumulant for analyzing polarization in materials.

Explore the unique behaviors of renewable active matter in biological systems.

Investigating the unique properties and applications of gapped graphene in technology.

A look into the electrical behavior of layered conductors under various fields.

This study investigates eigenvalue changes in domains with periodic holes.

Investigating layering techniques to raise superconducting critical temperatures in materials.

Research reveals how carbon nanotubes can create stable self-locking structures.

A look into the behavior of granular materials and their unique properties.

Recent study reveals important properties of doped graphene leads for future electronics.

A novel imaging technique enhances the study of magnetic materials at the atomic level.

Research reveals surprising long-range forces between charged surfaces in high salt concentrations.

This article examines LaPtSi, its phases, and its superconducting properties.

Target skyrmions hold potential for advancing electronic data storage solutions.

New methods enhance understanding of phonon interactions with lattice defects in materials.

This study focuses on how particles react on surfaces and the factors involved.

A look at the properties and growth of europium-based materials.