Latest Articles for Materials Science

Investigating how temporary bonds affect charge transfer between fullerene molecules.

Quasicrystals exhibit unique magnetic behaviors challenging our traditional understanding of magnetism.

This study examines charge behavior in ScV Sn under changing temperatures and doping.

Research reveals potential of bilayer graphene and hBN in electronic technology.

Study reveals grain size may not affect performance in superconducting tantalum films.

Researchers use barium titanate structures to improve light manipulation for various applications.

Researchers use light to influence phonon behavior in graphene, enhancing its properties.

New findings reveal enhanced charge-to-spin conversion using PtSe and NiFe materials.

Researchers improve simulations to better understand electrolyte behavior and interactions.

Exploring the behavior of electromagnetic waves in changing materials and its implications.

Researchers improve efficiency of tiny heat engines using Brownian motion.

Study reveals unique interactions between magnetism and superconductivity in tin on silicon.

A look into charge transport mechanisms in AGNRs and their implications.

Scientists study quasi-bound states in 2D materials with unique electronic properties.

Recent findings highlight the role of surface charge on CNT conductivity.

A new pBRDF model improves understanding of light interactions with surfaces.

This study examines how forces change chromatin behavior in living cells.

Learn how pigments enhance structural colors in materials for vibrant displays.

Line defects in 2D TIs disrupt edge states and conductance, revealing new pathways for electron flow.

Research reveals unique properties and potential applications of MCo Al materials.

A new algorithm enhances understanding of spin arrangements in materials.

Researchers are developing methods to speed up systems' return to equilibrium.

This study explores nucleon-pion interactions using advanced lattice QCD techniques.

Investigating how disorder and coupling affect particle behavior in quantum mechanics.

Research into iron-based superconductors reveals fascinating properties and behaviors under varying conditions.

This article examines how bubbles influence each other and their applications.

Explore how spin point groups influence material properties and applications.

Researchers create unidirectional spin waves using moving magnetic fields.

Researchers apply quantum computing to advance understanding of electromagnetic waves.

A look into how quantum annealers address spin-glass problems.

New design enhances robotic sensitivity and adaptability for improved interaction.

A look into the unique properties of twisted bilayer graphene and its superconductivity.

Exploring how active fluids behave differently from regular fluids and their potential applications.

Exploring the unique properties and potentials of kagome superconductors in condensed matter physics.

A fresh theory improves understanding of paired electron behavior in superconductors.

Examining how the arrangement of materials affects shape and function in bacterial compartments.

Study reveals how light affects charge carriers in InSe for tech applications.

Study reveals insights on melting processes using unsupervised machine learning techniques.

Research reveals unique microwave properties in Vogel spirals using cylinder patterns.

Differential Dynamic Microscopy offers a fresh approach to studying proteins.