Latest Articles for Electronics

Examining how defects in talcum can influence its use in advanced technologies.

Bilayer graphene shows promise for valleytronics, enabling new electronic technologies.

This study examines how nanostructured silica reacts to ionizing radiation.

Exploring the potential of ferroelectric nematic liquid crystals in technology.

Research shows strain boosts light emission in TMDs and InSe layers.

Researchers create controllable 2D quantum dot arrays for quantum computing applications.

Researchers achieve high-fidelity operations with spin qubits in silicon.

Exploring magnon dynamics in antiferromagnets for advanced technology applications.

Exploring the potential of antiferromagnets in next-gen memory devices.

Researchers are developing methods to create quantum light using free electrons.

A unified method improves prediction of electron interactions in materials.

Study reveals insights into charge and spin dynamics in unique electronic materials.

Research reveals crucial details about defects in phosphorene affecting electronic applications.

A compact device measures plasma properties efficiently using advanced technology.

Investigating NNO and LSMO properties when layered together.

An overview of Na Co TeO's magnetic properties and their significance.

Research explores novel superconductivity in transition-metal dichalcogenides through innovative techniques.

New insights into how materials react to changing light conditions.

New research focuses on spin qubits in silicon-germanium for better quantum computing.

Research reveals breakthroughs in high-density 2D electron gases and their implications for electronics.

Research shows how impurities change behavior of charge carriers in quantum wells.

Research on controlling electron behavior in graphene quantum dots for advanced applications.

Explore how voltage types and finger moisture affect touch experiences on screens.

Innovative spin filter technology enhances electron spin detection in materials science.

Recent studies challenge the predicted magnetic properties of RuO, suggesting new research directions.

Research reveals how layering in TMDs enhances superconducting properties.

Omni 3D technology enhances device performance and reduces space requirements.

Research reveals key insights into spin lifetimes in hybrid organic-inorganic materials.

Chern insulators exhibit unique electronic properties due to their topology.

Exploring how charged particles move through materials with defects.

Research reveals how magnetic octupoles influence altermagnets for future tech.

A new detector design using graphene micro-nanoribbons shows promise for terahertz applications.

New methods improve calculations for excited states in materials using GPUs.

Research reveals efficient voltage pulse shapes for improved memory device performance.

Small polarons greatly impact charge movement in semiconductors and electronic devices.

VCO ADCs enhance signal conversion performance with innovative design techniques.

Examining the small changes in magnetization and their impact on technology.

Research reveals how CPDs can transform electronic device efficiency and adaptability.

A look into gapped materials and their fascinating electronic characteristics.

Research on sodalite-derived electrides reveals potential for new electronic materials.