Latest Articles for Materials Science

Research highlights the use of MPNNs to classify materials and predict properties.

Synthetic data generation improves machine learning for atomic-level material analysis.

A new method transforms how we study evolving surfaces.

This article covers key aspects of laser physics and its various applications.

Study reveals how cavity interactions affect Majorana states in topological superconductors.

Research reveals how twisted layers alter electronic properties and enable fractional quantum effects.

A look into the nonlinear Hall effect and its implications for materials science.

Research on bismuthene reveals how magnetic impurities influence electrical properties.

Examining high-harmonic generation to reveal material behaviors and applications.

MatSciRE streamlines data extraction from material science articles to aid battery research.

A look into the unique properties and applications of superconductors in technology.

This article focuses on achieving null-controllability in specific mathematical problems.

This article explores methods to study mixed crystals and their applications.

New plastic scintillator made from styrene shows promise for radiation detection.

Research reveals how strain affects electronic properties in 2D materials like WSe2.

Research reveals complex interactions in MgV O's structure and magnetic behavior.

Research examines how laser heating affects particle interactions in fluid mixtures.

Study reveals how active Janus particles cluster and relate to biofilm formation.

Examining the role of dislocations in material properties and engineering.

New algorithm improves crystal structure prediction using multi-objective strategies.

This study examines how grooves affect friction in viscoelastic materials.

Study explores how polymer solutions affect biological processes through phase behavior.

A look into grain boundaries and facet formation in materials.

Researchers aim to manage electron behavior in graphene for practical uses.

Investigating how superconducting films respond to ac magnetic fields.

Maximize data from pressure application in nondestructive testing.

Research reveals how edge modes maintain wave direction despite disturbances.

Study reveals how magnetic fields affect electrical currents and resistance in LaTiO/SrTiO interfaces.

New phase shift rules address limitations in estimating derivatives in quantum circuits.

This article examines how different solvents influence molecule behavior and shape changes.

Research reveals potential applications of antiferromagnetic skyrmions in modern technology.

Research on quantum dots reveals their potential for advanced technologies and communication.

Investigating moiré patterns reveals potential advancements in materials and electronics.

Combining classical and quantum approaches could enhance simulations of complex systems.

A novel SPH approach improves simulation for plates and shells under deformation.

A look into the unique properties of the supersymmetric SYK model and its implications.

Scientists use advanced imaging to study materials at atomic levels.

New insights into MATBG's electronic behavior could lead to advanced electronic technologies.

Research on nanographenes reveals insights into magnetism and electrical conduction.

Exploring the potential and challenges of vibrational polariton states in molecular systems.