Latest Articles for Materials Science

Using GNNs to predict optical properties of materials improves device design.

New findings on hematite enhance spintronics efficiency through spin-orbit torque.

Research into the effects of holes on magnetic ions in quantum wells.

This study reveals how droplets behave on soft materials.

Exploring the formation and growth patterns of droplets in condensation.

Exploring the potential of graphene in spintronic devices.

Research into speckle tweezers offers new ways to manipulate particles at liquid interfaces.

Examining how uneven growth influences the stability of biological structures.

This study examines the impact of processing on 3D printed aluminium mirrors.

Innovative lightsail technology aims to reach our closest star in 20 years.

Research identifies new organic materials for improving perovskite solar cell performance.

New methods offer insights into warm dense hydrogen's electron and ion dynamics.

A simplified approach to identify crystal structures using particle coordinates.

Examining exciton condensation in quantum spin-Hall and Mott insulators reveals new properties.

Enhancing quantum dot light for improved communication in quantum networks.

A deep dive into the CPT model and its implications for superconductivity.

A new tool improves analysis and production of gold nanorods for various applications.

Research reveals how quantum wires interact with mechanical motion and Lorentz invariance.

RE2O2CO3 compounds reveal unique magnetic behaviors due to their crystal structures.

Research reveals unique properties of edge states in honeycomb structures and high-fold fermions.

Exploring the Floquet Schrieffer-Wolff Transform and its impact on driven systems.

Exploring how quantum systems alter energy and heat behavior.

New methods improve understanding of wave behavior in materials for engineering applications.

A new method offers better ways to calculate kinetic energy in electronic systems.

Uncovering how light can be controlled for advanced technologies.

New insights on how electrical current affects MRAM performance.

Studying non-Hermitian skin modes reveals new insights into physical systems.

SciQu speeds up material property predictions using machine learning and automated data extraction.

This article examines the importance of Ampere interactions at small scales.

A look into the Casimir effect and its impact on physics.

Study examines spin relaxation processes in quantum dots and control methods.

A new machine learning method speeds up phonon calculations for material properties.

Explore the evolving world of dynamic polymers and their applications.

A look at quantum phase transitions and methods to minimize excitations.

Recent developments improve efficiency and applications of SHG in various technologies.

A new method links excitons with mechanical systems, boosting quantum technology potential.

Researchers study complex behaviors of frustrated quantum magnets at low temperatures.

Examining the potential of the Kekulé Valence Bond Solid state in graphene.

Research on MgB₂C and NaBC reveals potential for ambient-pressure superconductors.

IrTe2's phase transitions reveal insights into its electronic behavior and potential applications.