Latest Articles for Materials Science

Scientists investigate how different methods affect band gap calculations in materials.

Exploring the vibrational properties of triangular nanographenes and their electron interactions.

Discover how silver nanowires manipulate light in exciting ways.

A look into the fascinating Nernst effect in layered telluride materials.

An insight into current fluctuations during magnetic transitions in materials.

Nanowires hold potential for advanced technology through efficient electricity flow.

Explore the fascinating properties and potentials of fractonic systems in physics.

Scientists innovate buried gates for improved quantum dot performance in computing.

Exploring how rare-earth elements reveal secrets of quantum entanglement.

Discover how strain enhances the properties of bilayer WSe₂ for future tech.

Discover how tiny magnetic interactions may shape future technologies.

Learn about basis set incompleteness errors and how scientists address these in quantum chemistry.

2-D transistors may change the landscape of modern electronics and computing.

Discover how metasurfaces manipulate light to change our interaction with technology.

New methods and materials protect metals from corrosion effectively while considering environmental impact.

Unlocking the secrets of particle interactions with Bethe wavefunctions.

Unraveling the complex interactions of spins and light in quantum technology.

Scientists investigate double twisted bilayer graphene for exotic quantum states.

Discover how shear flow reveals the unique behavior of materials under stress.

A deep dive into the behavior of hole gases and their potential in electronics.

Discover the fascinating properties of TbVSn, a special ferromagnetic material.

Discover how time-modulated systems are transforming wave technology.

New machine learning techniques enhance understanding of solvation behavior in mixtures.

Discover the magic of ferrofluids and their stunning behaviors in magnetic fields.

Discover how advanced materials manage heat flow in innovative ways.

Discover how disorder transforms topological crystalline phases and their properties.

Explore the fascinating world of crystallography groups and their significance in science.

Revolutionary materials may change the landscape of electronics and quantum computing.

Discover how light and matter interact in two-dimensional photonic crystal waveguides.

Discover how electrostatic interactions shape materials like barium titanate.

Delving into how quasi-particles and self-energy shape molecular behavior.

A look into the unique properties of Mn3Si2Te6 and its colossal magnetoresistance.

How algorithmic design influences Casimir-Polder forces for advanced technology.

Explore how doped semiconductors transform electrical properties and optical responses.

New research sheds light on how chemical bonds form with the help of superfluid helium.

Exploring the role of divacancies in silicon carbide for quantum technologies.

Discover the fascinating behavior of waves in non-Hermitian systems.

Researchers uncover unique phonon patterns in materials with Hopf-link structures.

Discover the role of magnetorotons in the intriguing world of fractional Chern insulators.

Explore how particle statistics shape our understanding of materials and technology.