Latest Articles for Material Science

Examining the role of memristors in neuromorphic computing and their potential applications.

Exploring the impact of grain boundaries on electronic properties of topological insulators.

Research into Indium Bismuth reveals potential for innovative electronic applications.

Scientists study excitons and polaritons for efficient movement and future technology.

GdRu2Si2 exhibits unique magnetic structures with potential applications in electronics.

Insights into how light interacts with materials reveal important optical properties.

Examining how structural changes affect superconducting properties in kagome materials.

A study on wear dynamics and material properties affecting lifespan.

Exploring how hydrophobic surfaces influence liquid movement and electrokinetic transport.

This article examines the unique magnetic characteristics of Sr CoTa O material.

Exploring how curved structures influence particle energy levels.

Study of fractional Laplacians improves understanding of anomalous diffusion.

Discover how glass-forming liquids change properties as they cool.

Research reveals exact solutions for a modified Bose-Hubbard model with unidirectional hopping.

This research examines how dislocations affect material properties and behavior under stress.

Examining how engineered materials enhance durability and manage stress.

Smith hat tiles create fascinating and non-repeating patterns in two-dimensional space.

Investigating how plasmonics and 2D materials can transform technology.

A new semi-supervised framework improves predictions for under-represented graph properties.

Researchers investigate superconductivity's links with topological insulators and their unique properties.

This article examines how tiny forces affect avalanche behavior in materials.

A new machine learning method characterizes exceptional points in non-Hermitian systems.

Study reveals how growth conditions affect magnetic behavior in thin films.

A new method combines machine learning and language representation for material discovery.

Exploring edge ferromagnetism in triangular-graphene quantum dots and rings.

Recent experiments shed light on the complex nature of itinerant ferromagnetism.

Two new approaches for analyzing stress in materials used in engineering.

New methods improve predictions for cation arrangements in multicomponent oxides, enhancing material design.

This article examines how dislocation patterns form in tantalum under shock loading.

Research on electron behavior in 2D materials reveals new potential applications.

A fresh approach enhances simulations of material behaviors under temperature changes.

New fiber-tip design improves terahertz radiation efficiency and portability.

Studying the unique magnetic behavior of UTe at low temperatures.

New methods improve uncertainty measurement in neural network predictions for materials.

Exploring the role of exceptional points in sound wave manipulation through acoustic metamaterials.

New zirconium hydride shows promise for nuclear reactor applications.

Research delves into entanglement properties in two-dimensional metals and their implications.

New automated method improves accuracy in measuring grain sizes of materials.

Exploring magnetic behavior in moiré materials through electron movement.

This article examines how bending affects the strength of FRP rebar.