Latest Articles for Electronics

Bilayer graphene shows promise for future spintronic technologies.

Applying magnetic fields reveals new behaviors in unique materials known as Dirac fermions.

Study reveals how topological phases respond to disorder and dephasing.

A new approach reveals insights into STNO synchronization and performance.

Investigating interactions between antiferromagnets and non-magnetic metals for better electronics.

Learn how to measure reliability and confidence in small sample tests.

A look into topological semimetals and their unique electric properties.

BGaP showcases unique properties for advanced technology applications.

Graphite shows long spin relaxation times, revealing potential for advanced spintronic devices.

Discover the fascinating characteristics of twisted trilayer graphene and its potential uses.

A look into the Steiner Tree problem and its applications across various fields.

Research on domain walls and twirls in two-dimensional materials enhances electronic device performance.

New findings in van der Waals magnets could transform future electronic devices.

A special transistor harnesses temperature differences to generate electricity efficiently.

Study reveals interaction of magnetic forces in iron films on InAs.

A look into how Berry curvature affects electron dynamics in two-dimensional materials.

Exploring the role of thermal dynamics in reconfigurable photonic devices.

Exploring electric currents generated by magnetic fields near boundaries.

Researchers observe heat and exciton interactions in few-layer MoS2 using advanced techniques.

VSiXN monolayers exhibit unique properties for advanced electronic applications.

Researchers unveil novel electronic properties of a 2D kagome MOF.

Research reveals unique behaviors in iron-based superconductors linked to quantum computing.

Study reveals how strontium affects magnetic properties in manganites.

Twisted trilayer graphene shows unique properties due to its layered structure.

A look into novel properties and applications of hybrid symmetry class topological insulators.

New methods enhance how we visualize electron behaviors in materials.

Exploring ferromagnetic rings and their unique spin behavior in technology.

MAX phases like TiAlC and CrAlC show promising properties for advanced applications.

Innovative technique enhances protection against power side-channel attacks.

A brief look at the stability and importance of crystalline materials.

This article examines how NdSb's magnetic order affects its electronic behavior.

Exploring the unique properties and applications of twisted bilayer graphene.

Researchers propose a novel approach for accurate permittivity measurements using s-SNOM technology.

Exploring how magnetic materials influence non-magnetic layers, particularly graphene.

Study reveals how ferroelectric polarization affects exciton lifetimes and binding energies.

Explore the fascinating world of topological insulators and their electronic behaviors.

New insights into twisted graphene layers reveal unique electronic properties and potential applications.

Research reveals methods to direct heat transfer in quantum resonators using synthetic fields.

Explore the unique attributes and uses of niobium nitride in technology.

Hafnia shows promise in electronics due to its unique ferroelectric properties.