Latest Articles for Nanotechnology

Exploring the unique properties and potential of twisted bilayer graphene.

Exploring how 2D materials can improve silicon solar cell performance.

Exploring how information theory sheds light on quantum systems under confinement.

A novel method reduces energy needs in nanoparticle manipulation through low friction surfaces.

Research on HeC60 reveals important behaviors of trapped helium in fullerenes.

Examining the behavior of metallic nanowires on semiconducting materials.

This article examines current circulation in quadratic fermionic systems and the role of asymmetries.

Researchers study gold/silver nanoalloys for enhanced properties in various applications.

Research reveals new insights into light-emitting properties of OCCs in carbon nanotubes.

MXenes and Janus MXenes show potential for efficient heat-to-electricity conversion.

This study reveals how altermagnets influence the Kondo effect and its applications.

Exploring the mechanisms and significance of magnetization reversal in magnetic devices.

Examining how thin films of glass-forming materials behave on different surfaces.

Investigating twinned domains can enhance material performance in technology applications.

Researchers improve methods for creating high-quality nickelate films with unique properties.

Research explores how carbon nanotubes can stabilize hydrogen-bonded chains at high temperatures.

This article examines how CdAs films react to different magnetic fields.

Innovative techniques to enhance magnetic fields using laser beams and nanoantennas.

Study shows how iron layer thickness affects magnetic behavior in superlattices.

Research into wakefields generated by particles in carbon nanotubes could advance particle acceleration technology.

Analyzing the Jahn-Teller effect reveals key insights for material properties.

Investigating benzene molecular junctions for improved electronic and thermoelectric performance.

Exploring the potential of PSi NPs in imaging and drug delivery.

Research reveals how electric fields affect tiny liquid crystal droplets.

Researchers uncover unique electronic properties of twisted bilayer graphene.

A look into the behavior of excitons in transition-metal dichalcogenides.

Nanoscale devices enhance disease diagnosis and treatment through flow-guided localization.

Research shows how magnets can guide particles for medical applications.

Investigating the vibrational properties of layered hybrid materials for electronics.

Research explores how magnetization affects spin wave behavior in antidot lattices.

A look into the unique properties of ferrites and their applications.

Exploring how quantum paraelectric metals enhance spin transport through unique phonon interactions.

New method enhances analysis of soft materials using machine learning techniques.

Study reveals complex interactions between defects and polarons in rutile TiO(110).

A new quadrature microwave antenna improves control over diamond NV centers.

Investigating how missing atoms affect electronic properties in 2D materials.

Research advances the understanding of quantum spin liquids and Majorana fermions using the spin Seebeck effect.

This research unveils the behavior of ferroelectric superlattices under varying temperatures.

Research reveals insights on NV centers and their charge cycling under different light conditions.

Ionic liquid crystals offer new prospects in energy storage and advanced materials.