Latest Articles for Materials Science

New designs in resonators could improve quantum computing communication.

New method improves understanding of molecular behavior under electric and magnetic fields.

Researching wave behavior in silicon to improve electronic devices.

How electromagnetic fields impact electron interactions and material properties.

Investigating the relationship between quantum geometry and superconductivity in oxide interfaces.

Researchers explore new memory device technologies using unique thin film materials.

Recent methods improve calculations of cohesive energy in molecular crystals.

Study reveals the impact of pressure on iron microstructure during heating processes.

A new method streamlines complex molecular calculations in chemistry.

Research reveals complex behaviors of dipolar spin ensembles and their importance for quantum computing.

This article examines how surroundings affect gold-palladium nanoparticles' formation and properties.

Researchers reveal La Ni O, a new superconductor that operates under high pressure.

This article examines the superconducting properties of LaNiO3 under pressure.

New methods reveal insights into topological materials through microwave light interactions.

A look into the distinct behaviors of 2M-WS and its superconducting properties.

Research reveals new properties of zigzag Haldane nanoribbons and their unique topological states.

A study on dislocation skin effects and topological properties in non-Hermitian materials.

Research on managing phase transitions using advanced numerical methods.

This article discusses the design and application of plasma metamaterials in technology.

Exploring Majorana bound states' potential in quantum computing and superconductivity.

Study reveals stability and electronic features of CPA monolayers with potential applications.

Exploring the unique sticking ability of nematic liquid crystal elastomers.

Researchers enhance quantum computing through improved signal readout technologies.

This article explores how non-intersecting random clusters behave under specific conditions.

Exploring how geometry and material behavior affect shell performance.

Scientists improve material discovery efficiency by integrating expert knowledge with Bayesian optimization.

Examining the interactions between materials under various forces.

Exploring the role of Raman spectroscopy in studying Platinum Diselenide layers.

New findings on interface excitons offer insight into optoelectronics and quantum technologies.

Exploring how point arrangements impact energy stability in lattice systems.

Researchers improve nanoacoustic devices with new mesoporous materials for better environmental sensing.

Research on CoSn thin films reveals insights into flat band physics.

Research unveils the properties of selenospinel Cu Fe Sn Se for thermoelectric applications.

Research reveals intriguing behaviors of exciton-polariton condensates influenced by external factors.

Researchers study unexpected behaviors in nano-resonators and their effects on performance.

This study examines active ring polymers' behavior in free and confined spaces.

Examining how different salts impact water movement and interactions.

Researchers develop cavities to enhance light-matter interaction studies at the nanoscale.

Study of how particle size affects mixing behavior in colloidal systems.

Research on 1T-VSe reveals insights into charge density waves and material properties.