Latest Articles for Electronics

Research reveals vital magnetic and conductivity characteristics of Fe Sn through temperature-dependent studies.

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

A fresh approach improves heat conduction simulations at the molecular level.

Using large language models to streamline hardware design verification processes.

Graphene's unique properties lead to advanced sensing applications in various fields.

Exploring the unique properties and applications of 2D antiferromagnetic materials.

This article explores how magnetic fields can enhance electron trapping in graphene quantum dots.

New findings on Fe CoGeTe may advance spintronic technologies.

Study reveals unique light-induced currents in tellurium crystals for future tech.

FeGaTe shows promise for efficient data storage and electronics.

Research focuses on enhancing 2D magnets for future electronic devices.

New methods focus on polaritons for better heat transport in tiny electronic devices.

Exploring the effects of dipole interactions in light-responsive 2D materials.

Study reveals how van der Waals materials behave under different conditions.

This article examines the behavior of topological surface states on lead-covered insulators.

Exploring the unique behaviors of ScV Sn kagome metals and their charge density waves.

Explore the unique properties of hBN and its role in electronic devices.

This article highlights the behavior of rare-earth ditellurides in thin film applications.

FeSn displays interesting magnetic behavior and electronic interactions, revealing potential applications.

Research shows plastic deformation can create strong magnetism in SrTiO₃ materials.

Research on spin waves in unique magnetic shapes offers new tech possibilities.

Research on nanowires reveals exciting potential for future technologies.

This article explores how charges move in mica, highlighting hyperconductivity and its implications.

Dirac materials show promise for advanced electronics and quantum computing applications.

Exploring the essential features and testing of circulator devices in telecommunications.

A simple, low-cost tool for measuring magnetic fields in scientific experiments.

Y-type hexaferrite shows promise for energy-efficient memory devices through unique magnetic behaviors.

Impurities in diamonds create unique properties essential for various technologies.

Exploring the fascinating properties of EuCd P and its colossal magnetoresistance.

Scientists study how light alters the conductivity of 2-MoTe material.

Learn how spintronics and carbon atoms could change technology.

Our study reveals unexpected persistence of electronic properties in SnTe at higher temperatures.

Research reveals unique thermoelectric features in thin films of Cd3As2.

Exploring the significance of flat bands in electron systems.

New insights into layered materials promise advancements in energy storage and memory technology.

Research on nonreciprocal transport in superconductors aims to boost future electronics.

This article explores how plasmas interact with semiconductor materials, focusing on electron behavior.

Research highlights phosphorus donors in silicon to enhance quantum operations.

Researchers study how electron beams interact with spherical nanoparticles for optical applications.

Research reveals new spin-to-charge conversion methods in graphene and MoTe at low temperatures.