Latest Articles for Materials Science

This study focuses on how variable materials respond to moving loads.

A look into the Trotter-Kato splitting method and its role in quantum mechanics.

Examining energy efficiency of liquid droplets on convex surfaces.

A fresh approach to creating flexible materials with adjustable properties.

An overview of thin shell structures and their significance in engineering.

TPDH-graphene shows promise in enhancing lithium-ion battery performance and longevity.

Exploring unique behaviors in non-Hermitian systems through energy braiding and long-range coupling.

Study reveals how active patchy particles form unique structures through interactions.

New findings reveal strong light properties of chiral carbon nanotubes.

This article examines how temperature influences the Hall coefficient in various materials.

Scientists aim to detect particles that may explain Dark Matter.

A novel technique allows detailed imaging without complex setups.

SCIGEN integrates structural constraints to generate stable quantum materials efficiently.

Examining how chiral materials interact with magnetic fields to create unique electrical properties.

New techniques improve predictions of defect formation energies in materials.

Research highlights the role of subgap states in superconductor-semiconductor devices.

Study focuses on how chirality and noise shape active solids' behavior.

Research reveals type-II Dirac cones and exceptional rings in photonic lattices.

Exploring the role of Rashba splitting in advanced spintronic applications and materials.

Exploring the unique behaviors of light in topological insulators and their applications.

Discover how wrinkles in graphene affect its properties and applications.

Study highlights unique behaviors of Fe GeTe in magnetic states and electron interactions.

A look into free energy differences and their impact on spin glass behavior.

1T-TaS2 shifts between insulating and metallic states with electric pulses.

Research into hybrid systems reveals unusual electron behaviors and potential technological advancements.

New insights into charge transfer behaviors in unique layered materials.

Additive manufacturing produces advanced mirrors for astronomy with reduced weight and enhanced design.

Exploring the complexities of anomalous diffusion through advanced mathematical modeling.

Exploring how packing density affects electrical conduction in quantum dot materials.

DyTe's tellurium vacancies influence its electrical behavior and potential in electronics.

A look at NMR techniques for studying spin-3/2 nuclei in materials.

Data and machine learning are transforming how scientists find new materials.

Research focuses on how electric and chiral charges affect light emission in QGP.

New methods improve efficiency and accuracy in electronic structure modeling.

Study reveals crack formation mechanisms in Zn-Al-Mg coatings.

Researchers study lasting oscillations in quantum Ising chain models after rapid changes.

New methods improve light manipulation in nanostructures for better energy efficiency.

A look into the Quantum Hall Effect and its implications in graphene research.

This study reveals how edge states form in a two-leg ladder system.

This study reveals how titanium alters magnetic and electrical properties of pyrochlore iridates.