Latest Articles for Nanotechnology

Researchers leverage light to separate chiral particles for improved applications in chemistry and medicine.

Examining how removing electrons can improve superconducting properties in flat band systems.

Exploring the complexities of high-temperature superconductivity in copper oxide materials.

This article examines heat movement in nanowires and its implications.

Exploring the complexities of frustration in spin chains and its impacts.

Study of electron interactions in double quantum dots and their potential applications.

Study reveals how temperature and layers impact graphene phonon behavior.

Examining how superconducting nanostrips switch states with increasing current.

Discover how CPD could change the future of electronic devices.

New materials improve light absorption efficiency for various technologies.

Research reveals how tilt angles in 3D ASIs affect magnetic properties.

Research on levitated nanoparticles aims to enhance quantum state observation.

A new method improves charge transport simulations in organic semiconductors, aiding device design.

Exploring chiral properties in ferroelectric materials and their diverse applications.

A look at how fast atom diffraction helps us study materials at the atomic level.

Exploring the behavior of Wigner molecules in layered materials.

Research on triangulenes opens pathways for new magnetic materials and technology.

Research reveals surprising magnetic properties in a superconductor-paramagnetic material mix.

Research reveals NiPS3's behavior as a Mott-Hubbard insulator.

Discover the mechanical and magnetic properties of carbon nanoconductors.

Research uncovers how strain and substrate influence second harmonic generation in MoSe monolayers.

Examining how potential wells influence particle movement at the nanoscale.

Researchers uncover methods to enhance magnetization stability in atomic chains.

Research reveals key phonon contributions to superconductivity in twisted bilayer graphene.

Discover how topological insulators are transforming electronic devices with spintronics.

Research unveils the formation of magnetic skyrmions in centrosymmetric materials.

Understanding quasiparticle interference reveals unique properties of Kitaev quantum spin liquids.

Exploring the potential of rhombohedral trilayer graphene in advanced technologies.

Researchers study unique material states that alter electronic properties.

Research reveals insights into active materials and their behavior in dynamic environments.

TPDH-graphene shows promise in enhancing lithium-ion battery performance and longevity.

Study reveals how active patchy particles form unique structures through interactions.

New findings reveal strong light properties of chiral carbon nanotubes.

Study shows how layer thickness affects selenium vacancies in two-dimensional semiconductors.

Research reveals effects of magnetic materials on topological insulators for electronics.

Research highlights the role of subgap states in superconductor-semiconductor devices.

Exploring the unique behaviors of light in topological insulators and their applications.

Discover how wrinkles in graphene affect its properties and applications.

1T-TaS2 shifts between insulating and metallic states with electric pulses.

New insights into charge transfer behaviors in unique layered materials.