Latest Articles for Materials Science

Exploring how voltage affects soap film bridges and their behavior.

Exploring how particle size affects photoluminescence in materials for energy applications.

Research reveals unique properties of twisted bilayer graphene and its potential applications.

Research highlights energy dynamics of electrons in plasma for improved beam quality.

Examining sputtering issues in heavy-ion experiments for superheavy nuclei synthesis.

This article examines the unique features of driven systems and their topological characteristics.

Examining how particle shapes influence 3D printing quality and efficiency.

Analyzing temperature jumps and energy transfer in gases with multiple atoms.

Investigating the iron-magnetite interface reveals insights for material improvements.

Research on light and molecular interactions leads to improved simulation techniques.

Exploring the potential of membrane antennas for observations from the Moon.

New method streamlines analysis of particle movement in quantum systems.

New techniques improve understanding of material behavior under stress and heat.

New methods improve molecule creation for drugs and materials.

Research focuses on YbOCl's magnetic behavior and interactions at low temperatures.

Study examines how inverted flags interact with flowing fluids and their energy capture potential.

A look at the Hall effect and its significance in organic semiconductors.

Exploring how strain effects in SWCNTs can transform electronic devices.

hBN spin defects enhance precision in quantum sensing across multiple fields.

Research reveals how design impacts light movement in valley photonic crystals.

Study of CeRhIn's magnetic behavior at low temperatures and under magnetic fields.

Research highlights the unique behavior of layered PtSe in electronics.

La:BaSnO shows promise in enhancing performance of electronic and solar devices.

An overview of current-induced circular dichroism and its implications in materials science.

This article explores how heavy ions interact with Mylar in nuclear research.

This article discusses how electron energies affect chemical reactions and material properties.

Investigating spin waves may transform data transmission in future technologies.

Examining the properties of CdHgTe and the effects of Kane fermions under terahertz radiation.

A look into how magnets affect chiral spin-triplet superconductors.

This study explores the use of magnetic forces for trapping nanoparticles using light.

Study of how materials change shape informs biological processes.

New methods enhance nonlocal diffusion problem modeling across various fields.

Researchers develop materials that adapt sound properties in real time.

Twinning changes material properties under stress, impacting various applications.

ZGNRs show promise for improving energy harvesting and cooling technologies.

Study reveals how disorder affects unique electrical properties of special materials.

High-entropy alloys show potential for efficient catalysts in clean energy applications.

Soft materials exhibit surprising behavior when stress is removed, involving local stresses and shear bands.

Introducing improved estimators for energy and heat capacity in quantum materials.

Learn about skyrmions and their potential in future technologies.