Latest Articles for Electronics

Examining the role of dislocations in material properties and engineering.

Researchers aim to manage electron behavior in graphene for practical uses.

Study reveals how magnetic fields affect electrical currents and resistance in LaTiO/SrTiO interfaces.

Research reveals potential applications of antiferromagnetic skyrmions in modern technology.

Investigating moiré patterns reveals potential advancements in materials and electronics.

Exploring the role of spin and charge in modern electronics.

New insights into MATBG's electronic behavior could lead to advanced electronic technologies.

Research on nanographenes reveals insights into magnetism and electrical conduction.

Discover the unique electronic properties of Dirac semimetals and their fascinating transitions.

A look into how light alters electron and phonon behavior in graphene.

Study reveals insights on electron movement in GaN/AlGaN structures for better devices.

Study explores factors affecting hole movement in superlattices for improved device performance.

Study of topological insulators reveals new electronic behaviors influenced by magnetism.

CrTe shows promise for advanced technology with its magnetic and electrical traits.

Mn Sn shows promise for advanced electronic applications due to its magnetic properties.

Exploring electron behaviors in materials through the ionic Hubbard model.

Examining how small polarons influence material behavior for electronics and energy.

Research reveals key effects in polar metals, highlighting novel properties and potential applications.

Research highlights the potential of Co MnSb/HfIrSb in spintronics applications.

Exploring THz magnon frequency combs in antiferromagnetic materials for future applications.

Exploring the unique characteristics and potential applications of carbon nanotubes.

GeSn offers new possibilities for electronics using light instead of electricity.

MgTe (110) shows potential for spintronic applications in modern electronics.

An overview of topological semimetals and their special properties.

Examining the unique properties and applications of antiferromagnetic topological insulators.

Explore the impact of spin-orbit coupling on electronic properties and applications.

Examining domain growth dynamics in an asymmetric Coulomb glass model.

Investigating how electrons behave in the unique geometry of graphene Möbius strips.

New principles pave the way for studying non-Hermitian materials without adverse effects.

This study examines how charge distribution affects noise in graphene devices.

Study reveals laser effects on magnetic properties and spin waves in materials.

Exploring how strain affects the electronic and magnetic features of bilayer VS₂.

Examining how geometry impacts electron flow in two-dimensional systems.

Study reveals how electric fields can control magnetization in two-dimensional magnetic materials.

Research explores how doping influences the structure and behavior of 1T-TaS Se.

Investigating how temperature affects antiferromagnetic membranes for future technology.

Discover the potential of core-shell InAlN nanorods for advanced electronic applications.

Research reveals complex behaviors affecting superconductivity in twisted bilayer graphene.

A breakthrough method improves imaging of thick magnetic materials using soft X-ray technology.

Exploring the unique properties and applications of 2D materials in various fields.