Latest Articles for Material Science

Researchers study fruit fly glue for potential advances in adhesives.

Research reveals new automated methods for understanding soft materials.

New methods improve understanding of electric double layers in energy storage systems.

A straightforward look at poroelastic plates and their significance in various fields.

New methods enhance accuracy in electron interactions for chemistry and physics.

Exploring how harmonic chains reach thermal equilibrium and the role of disorder.

Exploring the impact of electron beams on material properties and applications.

Active particles change the strength and flexibility of colloidal gels.

Exploring the nonlinear effects of NV centers in quantum technology and sensing.

Research on NV centers reveals insights into their coherence properties for quantum technology.

Exploring the role of soft solvent models in scientific research.

This article examines gas behavior when interacting with solid surfaces.

Exploring the interplay between colloids and liquid crystals for new material possibilities.

Research reveals the potential of skyrmion crystals for advanced cooling systems.

This article examines pair density modulation in thin flakes of FeTeSe superconductor.

This article discusses the effects of heat treatment on Ti-6Al-4V alloy properties.

Study reveals how elasticity affects material states when under pressure.

Explore how active particles interact to form unique structures.

This article examines how viscoelastic fluids shift from smooth to chaotic flow.

This paper discusses the stability and behavior of skyrmioniums in chiral magnets.

Examining how anisotropy affects quantum systems and information transmission.

Research focuses on quasiperiodic lattices, localization, and butterfly spectra in non-Hermitian systems.

Researchers study excitons and magnetic behavior in the material NiPS3.

Research explores manipulation of dark excitons in quantum dots for improved tech applications.

Recent research reveals how light and molecules interact in cavities, leading to new states.

Explore how temperature and electric fields affect HgCdTe's behavior in infrared applications.

A new framework blends TDA and optimal transport for matching data structures.

This article explores high-harmonic generation in zinc oxide under intense laser pulses.

A look into how Eliashberg theory explains electron-phonon interactions and superconductivity.

Exploring the Casimir effect and its implications in wedge-shaped geometries.

New techniques improve imaging detail and reduce radiation exposure.

Study reveals unexpected changes in thermopower of SrLaRuO near Lifshitz transition.

New preconditioner improves fluid simulations in porous materials for various industries.

Examining the impact and techniques of quantum simulation for open quantum systems.

A method to measure how materials absorb sound effectively.

This article explores the unique properties of alkaline earth atoms for technology applications.

Research reveals unique behaviors in heterostructures formed from layered materials with different structures.

New methods improve TFLN device fabrication for photonics applications.

Learn the basics of solid and fluid mechanics.

This study explores using AI methods to predict how materials crack over time.