Latest Articles for Materials Science

New CsSb films show high efficiency and stability for electron beam applications.

New methods aim to enhance OLED efficiency and performance.

Innovative approaches using DMD and GAN enhance modeling of shock-induced pore collapse.

Explore how bubbles produce sound through resonance and their importance in various fields.

Researchers investigate supercurrent behavior in novel nanowire Josephson junctions.

Research into exciton-polaritons reveals new pathways for laser technology and photonics.

Examining how vortex lattices influence heat transfer in superconductors.

Research highlights the nonlocal Josephson effect in superconducting devices.

Exploring the properties and challenges of bismuth selenide in topological insulator research.

Examining how pressure influences superconducting properties in -MoB material.

Black phosphorus shows unique properties for electronics but faces several challenges.

Examining reflections of electrons in bilayer graphene with superconductors.

TomoSAM streamlines 3D image segmentation, enhancing efficiency and accuracy for researchers.

Exploring the magnetic properties of the Kagome lattice through quantum methods.

Researchers develop techniques to probe low-energy modes in fractional Chern insulators.

Terahertz detectors play a vital role in imaging, communication, and sensing technologies.

This study examines the relationship between protein sequences and condensate properties.

multiRegionFoam enables complex simulations across different materials and fluid flows.

New methods for predicting metastable materials may unlock unique properties for various technologies.

Exploring the structure and stability of Co-Pt nanoparticles for advanced applications.

Recent discoveries reveal how PFCs trigger cavitation, impacting science and medicine.

A new method improves dispersion energy calculations for excited-state molecules.

Research reveals insights on thermoelectric properties of double quantum dots under temperature differences.

A study on Xenes and their potential in flexible electronics.

GdRuSi shows promise for future technologies through its skyrmion properties.

This study explores how charge screening occurs in graphene using mathematical modeling.

Investigating methods to measure and reduce noise in double quantum dots for better performance.

New method for generating magnonic frequency combs using exceptional points.

Exploring the potential of SiH-CdCl heterostructures for energy applications.

Discover how moiré lattices influence light behavior and wave propagation.

Exploring rigidity's role in phase transitions of materials at zero temperature.

Enhancing chemical reactions using bimetallic plasmonic catalysts for energy applications.

Delving into the unique behaviors of superconductors at point contacts.

This study reveals how ring polymers change as pressure affects their movement and structure.

A novel approach enables control of circular polarization in high-harmonic emissions.

Researchers investigate plasma dynamics during ablation using pulsed-power-driven systems.

Research on chiral spin liquids in layered materials reveals new magnetic behaviors.

This article explores how bending stiffness influences the shapes of semiflexible polymers.

LCEs offer innovative solutions for efficient energy conversion in modern devices.

Research reveals unique electronic phases in topological insulators using light and magnetic doping.