Latest Articles for Materials Science

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.

Explore the dynamics of dimer systems and their wave patterns.

Discover how strain influences the behavior of monolayer materials.

Discover the unique properties of altermagnets and their potential applications.

Delve into the fascinating world of spins and their interactions in quantum physics.

Discover the unique properties of lithium manganese oxide in energy storage.

Nanostrings interact with electric fields, enabling novel applications in technology.

Discover how tiny flaws in materials impact technology and efficiency.

Tantalum films are promising for superconducting qubits, despite some microwave loss challenges.

Discover the unique properties and potential applications of helimagnets and topological metal states.

Learn how to adjust the properties of nonlinear elastic materials for digital creations.

Discover chiral exciton polaritons and their potential impact on technology.

Explore the fascinating world of quantum critical points and their implications.

Sodium solid-state batteries could reshape energy storage with safety and efficiency.

Explore how core-level spectroscopy reveals the mysteries of atoms.

Discovering the unique properties of FeGe and its potential applications.

Researchers uncover new properties in the fascinating material NbSiTe.

Minimizing energy in material design for safety and efficiency.

Discover the exciting potential of altermagnets in modern technology.

Researchers explore charge transitions in bilayer graphene quantum dots for advanced technology.

Discover how moiré patterns influence electron behavior in fascinating ways.

A new approach improves phase field modeling for complex systems.

Explore how bilayer lattices interact with light for innovative technological applications.

Discover the unique electrical properties of compensated semimetals and their potential applications.

Active glass-forming liquids reveal secrets of movement and complexity.

Discover how ferroic materials transform technology through unique property manipulation.

Discover the potential of nitrogen-vacancy centers in quantum technology.

Explore how atomic spins interact and change states through various temperatures.

Discover how titanium dioxide is set to transform renewable energy production.

Learn how non-concentric quantum dots are changing technology and medicine.

Discover the captivating movements of self-propelled droplets in liquid environments.

Learn how sweeping processes shape our understanding of movement and interaction.

Discover how temperature and structure affect polymer behavior.

Exploring heat flow in antiferromagnetic materials through magnon dynamics and domain walls.

Tin doping changes the behavior of surface states, vital for electronics.

Discover the surprising behavior of electrons in two-dimensional materials like graphene.

Discover the unique properties of fermionic symmetry-protected topological phases and their impact on quantum computing.

Discover the fascinating world of Mott insulators and their role in superconductivity.