Latest Articles for Materials Science

A new technique speeds up the study of 2D materials' properties.

Research shows how polaritons can improve charge transfer processes in solar cells and batteries.

Research highlights advancements in using electric fields for controlling quantum spins.

New insights into the behavior of massive Nambu-Goldstone modes in dynamic systems.

Discover how DNA can create useful structures for health and technology.

Research enhances control and stability of single-molecule emitters for quantum technologies.

A look at how merge trees enhance our grasp of crystalline materials.

This study enhances Density Functional Theory using new models for hard-sphere fluids.

Exploring competing interactions and phases in thermodynamic systems.

Research on bilayer La Ni O reveals insights into its magnetic structure and superconductivity.

Researchers explore quantum dots and the Kondo effect for better energy conversion.

A look at unique electron behaviors in certain materials under different temperatures.

Unraveling the unique properties and behaviors of strange metals in condensed matter physics.

Exploring unique properties of chiral fermions in Weyl semimetals and related materials.

Research reveals promising electronic and spin properties in WCOX Janus MXenes.

New datasets enhance machine learning applications in materials science and imaging.

Research on how variable properties affect beam vibrations in engineering applications.

Research reveals conditions for Josephson diode effect in superconductors with triplet pairing.

Exploring the use of superconducting qubits for precise temperature measurement.

Examining how sodium salts affect gold nanoparticles' stability in suspension.

New methods improve data analysis in superconductivity research.

New method simplifies chiral light generation using twisted bilayers.

Innovative topological structures offer unique properties for diverse applications.

Exploring how granular materials behave under different forces through cycle analysis.

A new resonator design improves performance in superconducting circuits.

New technique improves imaging resolution in solid materials using light polarization.

This study examines how connected oscillators behave under shear velocity conditions.

Examining how soft polymer mixtures influence chromatin structure and behavior.

Researchers introduce an efficient way to simulate complex quantum behaviors at any temperature.

Discover the surprising links between mathematics, geometry, and physics.

PrB reveals unique Weyl fermions and magnetic behaviors with potential technological applications.

Explore the unique properties and applications of optical quasicrystals.

Exploring the properties and uses of magnetic nanoparticles in various fields.

This article introduces a method to analyze tiny structures in materials.

Discover new methods for separating and measuring chiral particles.

This research investigates the impact of system size on electronic properties using advanced methods.

Active droplets change behavior based on reactions, impacting emulsions in everyday products.

This study explores the interactions of self-propelled particles with walls using experimental data.

Researchers improve models of electrified liquid drops by incorporating Willmore energy.

Examining phase separation in liquids and its implications across various fields.