Latest Articles for Electronic Devices

A look into charge transport mechanisms in AGNRs and their implications.

Line defects in 2D TIs disrupt edge states and conductance, revealing new pathways for electron flow.

Study reveals complex behaviors in transition metal dichalcogenides and charge density waves.

Researching wave behavior in silicon to improve electronic devices.

A look into charge-spin conversion and its significance in electronic devices.

Study reveals methods to improve YIG film crystallization for better tech applications.

Explore the effects of disorder and temperature on bilayer graphene's properties.

Examining the unique magnetic behaviors and structure of MnSiN.

A look at conducting polymers and their potential impact across various industries.

Topological insulators feature intriguing properties that could transform electronics and quantum computing.

Examining unique properties and applications of altermagnetism in materials.

Research on topological insulators and magnetic materials reveals new electronic possibilities.

Research reveals methods to achieve valley polarization in TMDs at room temperature.

Discover the unique properties of topological materials and their potential applications.

New optimization methods improve power transistor efficiency and design accuracy.

Uncovering the unique properties and stability of magic angles in twisted bilayer graphene.

Examining how defects from radiation influence silicon carbide's thermal properties.

Researchers study strain effects in bismuth for advanced electronic applications.

Discover the impact of backscattered side-channel attacks on device security and defenses.

A low-power op-amp design for improved biomedical applications.

This article examines N eel walls and their impact on magnetic materials.

Hopf semimetals offer groundbreaking properties for materials science and technology.

This study explores charge carrier behavior in WSe and GaAs for advanced devices.

Research highlights properties of AlBN alloys for next-generation electronic devices.

Research reveals CrC and MnC's potential in next-gen magnetic technology.

This study reveals effects of gamma radiation on p-type silicon diodes with varying resistivity.

Exploring new findings in quantum states, particularly involving charge order and topological order.

Examining how temperature affects charge carrier interactions in HgTe quantum wells.

A study of TMDs and their behavior with magnetic ions.

A new method improves predictions in materials science by considering spin currents.

Research highlights connections between gapless fermionic systems and topological insulators.

Machine learning streamlines the study of defects in materials, enhancing prediction accuracy.

Examining how light affects electrical properties of vanadium oxides and their applications.

An overview of superconducting spin valves and their implications for electronics.

Research unveils deeper understanding of electron behavior in materials.

Exploring the impact of kagome lattices on quantum anomalous Hall effects.

Exploring how quasiperiodic structures influence superconducting materials.

Research highlights new methods to study vanadium dioxide's unique properties.

Researchers strive to create p-type transparent conductors for advanced technologies.

Research on LaCrO and LaMnO layers could improve electronic devices.