Latest Articles for Materials Science

Discover the potential of core-shell InAlN nanorods for advanced electronic applications.

Recent studies improve estimates of carbon monoxide adsorption energy on magnesium oxide surfaces.

A new framework helps classify unique states of matter in quantum physics.

Exploring how grain size influences the mechanical properties of polycrystalline diamonds.

Researchers develop stochastic methods to study quasiparticles efficiently in complex materials.

Discovering the potential of nickelate superconductors in advancing technology.

Researchers develop an improved model for molecular interactions using atomic properties.

Exploring the unique properties and applications of 2D materials in various fields.

Investigating unique properties of kagome superconductors and their applications.

Investigating hydrodynamics near phase transitions in strongly interacting matter.

Exploring how defects in alkali metal aluminas affect ion conductivity for better batteries.

Study highlights effects of Te vacancies on unique electrical behaviors.

Examining how surface anisotropy affects spin wave behavior in thin magnetic films.

A new approach to study fluid movement in advanced membranes.

Research reveals how structural forms affect halide perovskites in solar applications.

Research advances methods to control charge states in diamond quantum defects.

This article examines the intriguing properties of helimagnets and their magnetic phases.

A new method improves predictions of material behavior under load.

Researchers are finding ways to control spins in magnetic nanomaterials for better data storage.

Explore the fascinating world of cyclic polyelectrolytes and their unique behaviors.

Exploring the effects of gas jets on liquid film stability in coatings.

Exciton-polariton condensates may lead to new all-optical technologies and efficient devices.

A new approach to enhance fluid movement in synthetic materials.

Investigating how antimony alters the properties of kagome metal FeGe.

Study reveals magnetic properties and structure of Tm Sb Mg O material.

Researchers create a new superconducting compound with unique properties.

Erbium ions in cerium oxide show promise for enhancing quantum communication systems.

New methods help detect rattlers in packed systems more efficiently.

Examining how square plate designs affect airflow and force stability.

Research on WTe₂ reveals its potential for advanced electronic applications.

Exploring new methods for digital material structure representation and analysis.

This article discusses challenges in finding local energy minima in quantum systems.

Research on LaNiO3 reveals insights into superconductivity through pressure effects.

Gatemon qubits show promise in enhancing quantum computing through unique materials and structures.

Research reveals how doping changes grain boundaries in ceria-zirconia materials.

Scientists are investigating polaritons as qubits for more effective quantum computing.

Exploring the role of orbital ordering in magnetic properties and phase transitions.

Research reveals new methods to study ferromagnetic and antiferromagnetic materials.

Researchers improve models to understand unique magnetic properties of nanocomposites.

Study reveals how shear stress influences grain formation in iron alloys.