Latest Articles for Materials Science

Innovative methods simplify analysis of polymer-solvent phase behavior.

Study reveals insights into quasi-locality in quantum mechanics.

Study reveals key insights into the Al-3wt%Nd alloy for electronics.

Understanding iron's melting temperature reveals insights about Earth's core and its evolution.

An overview of how liquids interact with surfaces and the forces involved.

Exploring the role and challenges of microfluidic control valves.

A deep dive into how current affects topological superconductors and Weyl semimetals.

Creating room-temperature chiral magnets opens new possibilities in signal processing and data storage.

An exploration of quantum thermal machines using the Lieb-Kagome Hubbard model.

Discover how superwires guide electrons and their potential in technology.

Research explores superconducting properties of 2-NbS under magnetic fields.

Exploring the fascinating characteristics of ScVSn and its potential applications.

Explore the processes of freezing and melting in nature and industry.

A spintronic device matrix enhances control of Majorana zero modes for quantum computing.

A study on how impurities act in various models when excited.

Utilizing Nvidia Tensor cores to enhance speed in electronic structure theory calculations.

Research reveals new methods for manipulating light and matter interactions at room temperature.

New methods enhance quality and diversity in scientific data collection.

Quantum dots are small particles with unique properties, impacting various fields.

Researchers use phase-field modeling to predict how materials fracture under stress.

Researchers study plasmonic crystals for advanced sensing and electronic applications.

Active chiral materials exhibit unique properties impacting biology and technology.

Study reveals how laser light alters with gold nanorods.

Discover how tiny particles influence energy flow in complex systems.

Cylindrical magnetic nanowires show promise for future data storage and processing technologies.

Learn how certain polymers behave uniquely under stress, impacting biological systems and material design.

New approaches enhance understanding of metallic alloy changes during processing.

Charged microdroplets show unique chemical properties and faster reactions.

Artificial intelligence improves predictions for nanomaterial shapes and sizes.

Research reveals how strain alters TaNiS semiconductor properties.

Scientists reveal how tiny particles form unique structures through careful design.

A look into the strange behavior of inverse current in quantum systems.

A study on TbCo thin films using advanced analytical techniques for structural insights.

Photonic metastructures manipulate light for advanced technologies in communication and sensing.

This article reviews the unique properties of MnSn and MnGe antiferromagnets.

Explore the connection between quantum mechanics and fluid dynamics.

Learn how FeNNol enhances molecular dynamics simulations using machine learning.

Study reveals how atom positions in FeCo alloys affect magnetic energy dissipation.

A new method enhances self-assembly simulations, offering faster and detailed insights.

New methods using machine learning enhance transition state optimization in chemical reactions.