Latest Articles for Material Science

Study reveals unique electronic states in bilayer graphene domain walls.

This article examines the pseudogap phenomenon in two-dimensional materials.

Research shows how substrate choice and MBL affect polymer conductivity.

Discover the intricate behavior of dense emulsions and their practical benefits.

Electron ptychography enables detailed imaging of atomic structures and interactions.

Research reveals unique superconducting behaviors in aluminum and gold structures.

A new model simplifies predicting elasticity tensors for various materials.

Exploring how tiny particles influence larger systems through quantum jamming.

This article discusses how counter-rotating interactions affect molecule-light behavior.

Study of furanone reactions using light interaction analysis.

Learn how exceptional points influence light behavior in optical dimers.

This study highlights how angular momentum influences light-matter interactions in chiral cavities.

Investigating how light affects molecular behavior in optical cavities.

New nanoscale mixers enhance optical signal processing capabilities at petahertz frequencies.

This article discusses how molten glass flows and its significance in manufacturing.

Exploring methods for effective wave manipulation in various applications.

A novel superconductor found in La Ni O shows potential for high temperature conductivity.

Researchers investigate high-pressure superconductors for practical applications in energy.

Examining how hydrogen impacts silicon performance in devices, especially solar cells.

A new numerical method simulates liquid crystal reactions to electric fields.

Examining the impact of temperature and two-level systems on qubit performance.

Research reveals new phase in Haldane model influenced by disorder.

Frustrated magnets exhibit diverse behaviors due to intricate spin arrangements.

Researchers investigate spin torque oscillators for energy-efficient computing technologies.

A new approach helps simplify large scale quantum simulations.

A look into active and passive microrheology and their significance.

A look into charge-spin conversion and its significance in electronic devices.

DiffCSP improves the efficiency of predicting crystal structures using generative models.

New approaches improve understanding of ion movement in complex systems.

This study examines how uneven particle arrangements affect fluid dynamics.

Research on graphite nanoribbons reveals potential for innovative light polarization applications.

Exploring how material properties influence the Casimir-Lifshitz force in gapped metals.

Exploring the unique properties and applications of nematic liquid crystals.

A look at how materials respond to changes over time.

This article examines how fractures form in 2D materials like graphene.

New larger resonators improve performance in sensing applications.

Investigating how Yttrium Carbide's structure influences its superconducting properties.

Exploring quantum dots and their impact on electronic technology.

This article examines parameter uncertainties in thermodynamic models and their effects on predictions.

Study reveals how pressure influences flow behavior in soft particle systems.