Latest Articles for Materials Science

Understanding how softness affects dynamics in supercooled liquids reveals unique properties.

A look into how regions are covered by expanding points over time.

An exploration of how glasses age and evolve over time.

Research shows how twisting layers impacts electronic properties in TMDs.

Insights on the challenges of machine learning in predicting material properties.

Study reveals impact of local density on Majorana states in semiconductor-superconductor devices.

New methods improve the simulation of fermionic systems using Ising-type Hamiltonians.

Examining how temperature and pressure alter the structure of specific materials.

This article introduces a method to improve delamination modeling in composite materials.

Quantum simulation offers promising new methods for material exploration and cost savings.

New methods improve molecular design by measuring prediction uncertainty.

A review of the Bond Polarizability Model's effectiveness in Raman spectroscopy analysis.

New findings reveal how disorder affects quantum anomalies in materials.

This study looks at spin-orbit coupling in layered perovskites and its effects.

Research highlights the role of silicene in detecting food spoilage.

New hybrid hydrogels improve cell growth and adhesion in medical applications.

New insights into Cu-W composites enhance their potential for various applications.

New methods improve insights into excitons for better technology applications.

New method improves understanding of complex quantum states and systems.

Exploring unusual grain growth in materials at room temperature under high pressure.

New combined approach enhances molecular dynamics simulations using quantum computing and machine learning.

Research reveals thulium-doped crystals' potential in quantum memory applications.

A look into how polarons affect lithium niobate's properties and applications.

Researchers utilize two-tone spectroscopy to enhance quantum circuit understanding.

HydraGNN uses machine learning to accelerate materials discovery and modeling.

Study reveals how holes in WSe₂ can enhance quantum devices.

A look at bainite's formation and properties in steel.

Grain size impacts material properties and performance in engineering applications.

Exploring the transitions between crystal structures in materials science.

Exploring the connection between geometry and spin in electronic materials.

MgIrH shows potential for high-temperature superconductivity at normal pressures.

Research into Chern bands reveals complex behaviors influenced by electron interactions.

TbSbTe exhibits unique properties and magnetic behavior, offering insights into nodal line semimetals.

New deep learning model enhances understanding of PZO's thermal properties and phase transitions.

Research reveals potential applications of fractional Chern insulators in quantum computing.

Investigating how chiral materials alter light emission rates.

Study reveals how phase fluctuations influence the resistivity of superconductors.

Exploring how small particles behave under chemical signals in various fluids.

Investigating the link between magnetic materials and elusive dark matter particles.

A fresh approach to model memristors for advanced computing applications.