Latest Articles for Materials Science

This article discusses how machine learning aids in designing microstructured materials.

Study reveals new insights into hydrogel behavior under stress.

An overview of bulk viscosity's impact on plasmas, focusing on diatomic ions.

Research on water's properties under high pressure and temperature reveals its complex behavior.

Research reveals unique electronic properties of twisted TMDs combined with graphene.

Exploring the unique properties and applications of ferromagnetic ferroelectric materials.

New algorithms enhance predictions of quantum ground states using limited data.

Research on trions in Xenes reveals potential technology applications.

Exploring shift excitons and their impact on material behavior and applications.

A new method combines machine learning with coarse graining for better material modeling.

A new method enhances material performance predictions for 3D-printed components.

Examining the impact of microstructure on material failure in thin films.

Research on (LaSe)(NbSe) explores its unique superconducting properties.

CuMnSb's unique magnetic properties offer new possibilities in technology.

Research reveals how small molecules influence the behavior of nanotubes and nanocages.

This article examines wave behavior in a triangular lattice and its significance.

Analyzing numerical methods in materials science for phase-field problems.

A new method enhances the speed and accuracy of predicting charge density.

A new method enhances accuracy in calculating sublimation enthalpies for molecular crystals.

Scientists study color centers in diamonds for advancements in quantum applications.

Discover how enhanced machine learning helps improve composite material production.

Research reveals key factors affecting edge plasmons in V-doped bismuth selenide films.

This study reveals methods to generate laser light with high topological charges using quasicrystals.

This study uncovers how disordered materials behave under pressure.

Exploring the role of high-order singularities and flat bands in material properties.

A look at quantum spin chains and the nested algebraic Bethe Ansatz.

Exploring how alcohol affects phase transitions in living materials.

This study examines the unique electronic properties of anisotropic Dirac semimetals using a holographic model.

A new method uses deep learning to improve quantum many-body energy calculations.

Investigating the integration of parafermions and spin qubits for advanced quantum computing.

Examining defects in materials, particularly hexagonal boron nitride, and their implications for technology.

A new look at the Ising model reveals surprising thermodynamic properties.

Exploring phase transitions in quantum systems influenced by infrared radiation.

A new framework addresses complex nonlinear responses in materials.

New methods improve molecular simulations and interactions for better accuracy.

A new method predicts probe positions for clearer imaging in ptychography.

Research reveals distinct properties of miassite under magnetic fields.

New methods improve understanding of molecular interactions and behaviors.

New hydrogenated materials show superconductivity above 80 K, promising future applications.

Innovative method integrates electron density for improved molecular property predictions.