Latest Articles for Materials Science

SimXRD offers millions of simulated XRD patterns for improved crystal classification.

A detailed look at the triple-chain Ising model and its implications.

Examining nickel-vacancy centers and their impact on future technologies.

Explore the types and applications of magnetism and ferrites in modern technology.

This study examines hafnia's behavior under varying temperatures and pressures using machine learning.

Researchers leverage AI to improve materials modeling through a new deep learning approach.

This study examines how unique materials behave under varying conditions.

Discover the unique properties and applications of miktoarm star polymers.

Exploring a new method to predict materials' excited-state properties with high accuracy.

Research reveals how charged droplets can effectively remove particles from surfaces.

Exploring how twisting and electric fields affect t2BN's properties.

Research reveals new behaviors of bismuth that could transform electronics.

This article examines how particle layers relax after compression.

A look into energy minimization in defined spaces and its implications.

A new tool boosts the search for materials with flat electronic bands.

Examining excitons reveals new opportunities for improving organic semiconductors.

A new interface enhances molecular dynamics simulations under realistic conditions.

This article examines the impact of charge density waves on ScVSn's electronic properties.

A study on improving vibrational property predictions for materials using machine learning.

A new method combines machine learning with traditional approaches to study materials efficiently.

Researchers enhance material property prediction accuracy using transfer learning and machine learning techniques.

This paper details the MBES's design and its role in electron spectroscopy.

Examining how NiAl coating brittleness affects nickel-based superalloy durability.

Exploring the properties and behaviors of nickel-based superalloys for high-temperature applications.

Exploring how light changes the mechanical properties of zinc sulfide.

A look into the importance of bosonic quasiparticles in quantum physics.

Research reveals insights into superconductors and insulators in twisted bilayer TMD materials.

Research reveals complexities of deconfined quantum critical points in materials.

Examining unique electron behaviors in topological semi-metals through composite nodal lines.

Examining how chirality influences electron spin and its implications.

Research reveals new insights into elastomeric metamaterials and their deformation modes.

This article examines how particle interactions shape physical phenomena in various materials.

Exploring Nambu-Goldstone fields and their role in symmetry breaking in physical systems.

Soft electro-active materials transform energy, enabling diverse applications in various fields.

Examining how lipid membranes and actin networks work together in cells.

Research reveals new ways to manipulate microtubules using light-sensitive proteins.

NV centers provide insights into materials' properties through non-invasive measurements.

Researchers use machine learning to identify materials for high-temperature superconductivity.

New ceramics combine strength and toughness for industrial use.

This article discusses the formation and significance of crazing in polymers under stress.