Latest Articles for Materials Science

Discover the potential of DNP and ZULF NMR in healthcare and materials science.

Exploring the unique behaviors of magnetic multilayers in technology and research.

Machine learning aids in finding materials with high Curie temperatures for technology.

This article explores biexcitons and their behavior in perovskite nanocrystals.

Research improves efficiency of frequency doublers using thin-film lithium niobate.

Research reveals how bilayer graphene reacts to periodic driving forces, leading to dynamical freezing.

This study evaluates how preparation affects the properties of zinc sulfide.

Exploring the effects of LaVO and KTaO layering on properties.

Innovative approach using nuclear magnetization to identify light dark matter particles.

This research analyzes how quadrupolar interactions impact NMR signals in quantum dots.

Research highlights new methods for manipulating NV center states using electric fields.

Researchers advance understanding of chaotic systems using photonic topological insulators.

Study reveals surprising behaviors in lightly doped 6-layered BaCaCuO superconductors.

This article examines how strong electric fields affect electron movement in materials.

Machine learning improves predictions of formation energy for various compounds.

Investigating how spin-orbit coupling influences electrons in two-dimensional materials.

Research focuses on new methods to control electron beams using advanced materials.

Research highlights interactions of skyrmions, merons, and antiskyrmions under varying conditions.

Exploring fluorescence mechanisms in copper(II) porphyrins and the impact of temperature.

Recent studies show surprising behavior of electricity flow in ultra-clean thin wires.

Enhancing model performance for better predictions in engineering systems.

Exploring how topological insulators react to light pulses and their implications.

Exploring the unique magnetic properties of the Kitaev-Gamma ladder model.

Learn how size segregation affects granular materials in flow.

Exploring electron transport behaviors in Kekulé-ordered graphene under varying conditions.

Origami metamaterials offer unique wave manipulation for future technologies.

Research reveals a new phase of superfluidity in topological bosons within unique band structures.

Exploring the behavior and importance of granular suspensions in different applications.

Investigating how oscillations affect defect formation during phase transitions in quantum systems.

This article explores the role of chirality in molecular structures and knots.

New frameworks enhance the understanding of nonlinear topological materials and their applications.

Exploring how quenching affects defect formation in materials during phase transitions.

A novel method improves how we study materials that conduct electricity.

Research explores hole interactions in Hubbard models, impacting superconductivity and magnetic properties.

Study of electrical signal behaviors in Josephson transmission lines reveals insights on shock waves and kinks.

Exploring the electronic behaviors of half-Heusler compounds and their applications.

A study on the anomalous Hall effect in unique materials.

This article covers the unique properties and applications of lead germanate oxide.

Exploring the unusual electrical properties of strange metals in kagome lattices.

This article examines how disorder affects melting in two-dimensional materials.