Latest Articles for Materials Science

Discover how bi-isotropic materials interact with light in unique ways.

Discover how graph theory simplifies the study of one-dimensional materials.

Explore the complex behaviors of spin systems and their real-world implications.

Understanding electron interactions in one-dimensional systems reveals complex behaviors.

A fresh approach to modeling complex interfaces in materials science.

Explore the surprising behaviors of hydrogen and its liquid-liquid phase transition.

Explore how light interacts with dense collections of atoms.

Unraveling the secrets of ghost plasmons in bilayer superconductors.

Discover how dislocations and impurities influence metal behavior and strength.

Discover the unique behaviors and properties of phase crystals in superconductors.

Revolutionizing material science through quantum simulations of spin systems.

Explore the unpredictable nature of flux jumps in superconductors and their implications.

Discover the fascinating world of Shiba states in superconductors influenced by magnetic impurities.

Discover the intriguing Boson peak in amorphous materials and its unique properties.

Discover how chiral nanotubes are transforming the field of supercurrent diodes.

Unraveling the mysteries of persistent currents in Hatano-Nelson rings.

Learn about uncovering hidden shapes using waves and advanced techniques.

Ta NiSe reveals unique properties useful for future technology advancements.

Discover the intriguing world of weak Hopf symmetry and its impact on quantum systems.

Exploring exceptional points in non-Hermitian physics and their exciting implications.

Discover the unpredictable nature of quantum chaos and its implications.

New algorithm enhances clarity in X-ray imaging, revealing hidden material details.

Memristive devices bridge memory and processing, shaping the future of AI.

Discover how altermagnets can improve solar energy efficiency.

Discover how spin symmetry influences electron behavior in molecular chemistry.

Exploring the complexity of noncollinear magnetic materials with Bayesian optimization.

Explore how bioinspired metamaterials can transform industries and improve human life.

Dive into non-covalent interactions and the S66 dataset of molecular pairs.

Discover how optical phonons in graphite reveal new technological possibilities.

Explore the fascinating world of resistivity in metals and its impact on technology.

Discover how sulfur enhances nitrogen-vacancy centers in diamonds for quantum tech.

Discover the unique behaviors of aluminium nanoparticles in melting and freezing processes.

Uncovering the unique behaviors of terbium in material science.

AI enhances materials science by boosting productivity and innovation.

Discover how tiny quantum dots are shaping the future of technology.

Twisted bilayer graphene reveals surprising electrical properties and potential applications.

Discover the fascinating world of bilayer graphene and its magnetic properties.

Discover the unique behaviors of chiral magnets and their applications.

Explore how tiny defects in materials influence electrical behavior.

Discover how grain size impacts polysilicon's ability to conduct electricity.