Latest Articles for Materials Science

New methods enhance understanding of NV centers for improved quantum applications.

Exploring how electric fields affect edge states in graphene ribbons.

A new method improves how origami structures are modeled and understood.

Research on Josephson junctions reveals new possibilities in quantum device applications.

Research highlights inconsistencies in interpreting small-angle scattering data among researchers.

Discover the unique properties and applications of nanoparticles in chemical reactions.

Exploring methods to measure capacitance in electrochemical capacitors amid challenges.

New methods improve simulations of materials with strong electron correlation.

This study analyzes optical conductivity behavior in a specific model and its implications.

Study reveals how hydrogen molecules roam in acetonitrile under light bursts.

A fresh approach simplifies the observation of the Faraday effect in light.

This study examines internal structures using Dark Field X-ray Microscopy.

Exploring how chirality influences electron behavior in chemical systems.

Learn how amorphous solids respond to stress and their practical implications.

A look at slip and twinning in crystal structures and their importance in material science.

This article explores the study of open quantum systems and their interactions.

An exploration of zero mean curvature surfaces and their significance in mathematics.

Exploring how stress affects cavitation in amorphous solids.

An overview of topological phases in SSH and eSSH models.

Examining how grain boundaries affect Josephson current in high-temperature superconductors.

Investigating the behavior of semi-Dirac materials in quantum transport and noise.

Examining the complex processes of heat transfer at the molecular level.

Exploring new methods to understand complex materials for various applications.

This article discusses perfect matchings in lattices, their types, and applications.

Ewald MP enhances MPNN models for better molecular property predictions.

Discover how the shape of a Möbius strip affects electron behavior.

Study reveals insights on Van Hove singularities and electronic structures in materials.

Research reveals interactions of magnetism and structure in manganese phosphorus selenide.

Study reveals how positrons interact with halogenated hydrocarbons.

A model studying stability and shape of charged liquid drops in similar fluids.

Explore the unique transport properties and phenomena of ZrTe.

Exploring the impact of vibrational polaritons on energy transfer and chemical reactions.

New designs for reflectors improve wave directionality without scattering.

Research reveals how polymer brushes adapt when interacting with liquid droplets and vapor.

Investigating how shear flow affects the shape of flexible sheets.

This article examines how doping affects cuprates' transport properties and superconductivity.

Researchers discover efficient heat transfer across vacuum gaps using piezoelectric materials.

A look into edge states and their role in non-hermitian systems.

A new system speeds up perovskite semiconductor research using computer vision.

Analyzing quantum states influenced by random potentials reveals significant insights.