Latest Articles for Materials Science

Research reveals a method to induce circular dichroism in WS using a chiral metasurface.

A new method improves spin-orbit coupling treatment in materials science calculations.

This article examines how magnetic materials behave near superconductors.

This article discusses how external forces influence superconductivity and its practical applications.

Discover how large-angle twisted bilayer graphene reshapes electronic properties and applications.

Researchers reveal ordered phases in high-temperature superconductors, challenging existing theories.

Exploring the unique properties of twisted bilayer graphene and its potential applications.

Research sheds light on the complex stability of dodecagonal quasicrystals using hard sphere models.

An overview of quantum spin liquids and their unique properties in condensed matter physics.

A look into phase transitions and their impact on material properties.

Investigating how ions behave in high power impulse magnetron sputtering.

Explore how defects influence soliton behavior in wave dynamics.

Study on electron layers reveals impacts of distance on phase behavior.

Research reveals complexities of electron behavior in two-dimensional systems and quantum Hall effects.

Exploring how living materials convert energy into motion through columnar structures.

Edge states reveal unique behaviors in quantum spin Hall materials for future technologies.

A miniaturized tester improves insights into magnetic properties of electrical steel.

GdPt B showcases unusual magnetic behaviors and the topological Hall effect.

New approach to multi-mode lasing with plasmonic nanoparticle arrays enhances light emission.

Superconductivity advances technology and enables new applications in various fields.

Research reveals how structural changes impact superconductivity in nickel-based pnictides.

DyTe's magnetic and electronic features promise advancements in electronics and spintronics.

Examining how electron correlations and disorder shape the properties of layered nickelate.

Exploring how interfaces affect the electrical properties of two-dimensional materials.

New findings on antiferromagnetic materials and their potential in technology.

New method improves color manipulation for artists and designers.

Study reveals charge density wave behavior in layered materials related to magnetism.

Researchers modify exciton behavior in quantum wells using metallic and graphene layers.

Exploring the potential of energy states in technology and materials science.

Researchers simulate multicritical Ising models using quantum electronic circuits to study phase transitions.

Exploring the impact of spin-orbit coupling on material properties and behaviors.

This article explores how chiral helical structures stabilize under pressure changes.

A new tool speeds up graph generation for crystalline materials using modern technology.

Research shows how light affects chemical reactions within optical cavities.

Exploring the unique properties of europium palladium thin films and their applications.

A look at how microstructures affect the effective mass in mechanical lattices.

Researchers are developing efficient materials for safe hydrogen storage.

Research reveals how light influences molecules close to metal surfaces.

Research uncovers local distortions in layered materials affecting their properties.

Research highlights the light-emitting properties of graphene transistors under electric bias.