Physics - Materials Science

Ferrofluids exhibit unique magnetic behavior influenced by particle size and environmental conditions.

This article examines how fullerenes improve aluminum-based materials.

Single-photon emitters are essential for secure quantum communication networks.

Researchers are enhancing M-type ferrites by incorporating cobalt and lanthanum to improve magnetic properties.

Exploring the effects of light on superconductors and their magnetic properties.

Analyzing gallium atom movement to enhance gallium oxide performance in electronic devices.

Researchers unveil unique LaSb thin films showing superconductivity at higher temperatures.

Research uses machine learning to quickly predict properties of organic salt crystals.

DyFeO3 enhances performance of aqueous supercapacitors, improving energy storage capabilities.

Discover the fascinating properties and formation of quasicrystals.

Research reveals how temperature impacts the unique properties of Ca3Ti2O7.

Examining new methods for studying light-matter interactions in different systems.

An overview of nanocrystals and their role in light technologies.

Research reveals how spin waves can be controlled in antiferromagnetic materials.

Research reveals how nanoporous tantalum performs under stress and its applications.

A study on optimizing tight-binding models for electronic properties of Janus TMDCs.

Exploring the role of antiferromagnets in quantum computing and sensing applications.

Research reveals how external forces affect the magnetism of biphenylene network carbon material.

Study reveals boron-nitride nanobelts' potential in capturing greenhouse gases.

Research reveals how silicon can slow rust formation in concrete structures.

Research on antiferromagnetic Chern insulators shows promise for future electronics.

Research highlights new methods to study vanadium dioxide's unique properties.

This study focuses on automating defect analysis in silicon carbide wafers using machine learning.

This article examines how phonons affect heat transport in insulators and semi-metals.

This article discusses unique behaviors of electrons in Dirac materials under electric fields.

A look into colloidal liquids and their vital roles in various industries.

New training method enhances stability and accuracy in molecular dynamics simulations.

Exploring the impact of defects and polarons on lithium tantalate's properties.

Barium titanate nanocrystals offer unique properties for advanced electronic applications.

A look into how ARPES reveals electronic structure in various materials.

Research sheds light on aluminum's properties in extreme conditions.

Altermagnetism offers new insights into magnetic materials with potential spintronic applications.

Convex Hull-aware Active Learning improves material stability assessments effectively.

Study reveals structural changes in antifluorite materials with temperature fluctuations.

A new technique studies materials at incredibly fast timescales.

A look into charge transfer processes on surfaces using advanced methods.

Research enhances design of GNRs for efficient electronic circuits.

Research on how water changes states reveals surprising complexities.

A look at the excitonic effects and optical behavior of monolayer WSe.

Exploring dielectric loss and its impact on superconducting qubit performance.