Latest Articles for Materials Science

Explore how materials change states and the factors that influence these transitions.

Conductive polymers offer new ways to adjust epsilon-near-zero materials for advanced technology.

Using neural networks to clarify tiny magnetic patterns reveals material secrets.

Machine learning transforms molten salt research for cleaner energy solutions.

Discover how nucleation shapes materials and impacts science.

Researchers use light to create superconductivity in Mott insulators.

Examining how impurities influence dipolar Bose-Einstein condensates.

Discover the unique properties of Kagome superconductors and their implications for technology.

A fresh view on energy, materials, and creativity in engineering.

Discover how Co FeGe films could transform spintronics.

Discover how chirality influences superconductivity and electron behavior in materials.

Discover the fascinating properties and applications of 2D magnets.

Explore how Thue-Morse systems reveal insights into particle behavior under various forces.

A look at the unique behavior of spin supersolids in antiferromagnetic materials.

Discover the potential of LaNiO₃ in advancing superconductivity research.

An overview of how rods are analyzed for engineering applications.

Discover the groundbreaking properties of multiplicative Chern insulators and their potential uses.

Discover the Quantum Skyrmion Hall Effect and its potential to transform technology.

Explore the unique properties of non-periodic structures and their impact on materials science.

Discover how CFTs and topological matter shape modern technology and physics.

New materials promising enhanced magnetic and electric properties for advanced technology.

Research reveals new behaviors in twisted semiconductor layers under magnetic fields.

New technique reveals secrets of diamonds for future technologies.

Exploring donor-based spin qubits for scalable quantum processors.

Scientists investigate superconductivity to harness its potential in technology.

Tiny magnetic structures could transform data storage and processing.

Discover how machine learning transforms ICF experiments and material understanding.

Discover how thickness affects ferromagnetic materials and their phase transitions.

Discover the captivating world of surface polaritons and their applications.

Discover how simple units create complex systems in nature and technology.

A look into how nanoplasmonics shapes light control and technology.

Discover the fascinating world of heavy-ion collisions and particle production.

LaNiO2 shows promise in the study of superconductors with unique electronic properties.

Explore the fascinating properties of the breathing kagome lattice in materials science.

Discover how trilayered materials respond to changing magnetic fields.

Discover how magnetic disks create patterns and influence sound waves.

Researchers uncover unique magnetization plateaux in YbAlO, advancing quantum magnetism studies.

Discover how electron microscopy reveals material structures at the atomic level.

A deep dive into the importance of interphase boundaries in aluminum-silicon materials.

Discover how light interacts in innovative waveguides to create unique solitons.