Latest Articles for Nanotechnology

New techniques enhance light directionality using valley photonic crystals and quantum dots.

A technique that enhances the transfer of thin films for advanced optical devices.

Phosphorene chains offer unique properties for future electronic applications.

This article investigates the behavior of excitons in layered 2D materials.

Researchers use advanced models to improve gold nanorod synthesis methods.

This article explores excitons and their unique behaviors in one-dimensional structures.

Research on nitrogen-vacancy centers improves NMR sensitivity through polarization transfer techniques.

This article examines the creation and properties of NbAs thin films.

Explore the unique structure and applications of polyanilines in technology.

Investigating aluminum's influence on third harmonic generation in ZnO materials.

This article discusses how light can change crystal arrangements and their properties.

Study of VDFAP channels reveals key insights into molecular communication capacity.

Researchers are leveraging block copolymers to create unique quasicrystal structures.

This article explores the vibrational characteristics of amorphous alumina and its applications.

Exploring the unique properties and effects of magnetic Weyl semimetals.

Research highlights unique characteristics of Ba ScRuO for technology applications.

CoFeRhO shows potential for advanced applications with unique magnetic properties.

New method simplifies particle growth equations for better nanoparticle design.

Research on artificial honeycomb spin ice reveals new magnetic charge behaviors.

Exploring the impact of grain boundaries on electronic properties of topological insulators.

Research into Indium Bismuth reveals potential for innovative electronic applications.

A new type of superconductivity revealed in two-dimensional materials.

Examining how structural changes affect superconducting properties in kagome materials.

Research on multilayer metamaterials opens new doors for data storage and processing.

Exploring how curved structures influence particle energy levels.

Short magnetic nanowires show potential for fast and efficient memory systems.

Examining how composition and temperature affect the properties of magnetic nanocomposites.

Investigating how plasmonics and 2D materials can transform technology.

Study reveals how nickel impurities affect NiBi nanowires' electrical properties.

Research highlights the potential of bromine doping in 2H-MoTe for quantum applications.

Study reveals how growth conditions affect magnetic behavior in thin films.

Exploring edge ferromagnetism in triangular-graphene quantum dots and rings.

Exploring complex polarization textures and their technological implications in materials science.

New fiber-tip design improves terahertz radiation efficiency and portability.

New automated method improves accuracy in measuring grain sizes of materials.

New insights into particle interactions and configurations in TMD materials.

Exploring communication through molecules in nature and technology.

Antiferromagnets and Bloch lines could revolutionize spintronic technologies.

Exploring magnetic behavior in moiré materials through electron movement.

Research reveals unique properties of iron-based superconductors like FeSe1-xTex.