Latest Articles for Nanotechnology

Exploring how Beltrami surfaces influence electron movement and energy states.

Exploring the effects of geometry in Josephson junctions and their complex behaviors.

Research reveals materials that can absorb nearly all incoming light with unique properties.

Nanogap antennas harness light for applications in quantum technology and medical diagnostics.

New techniques allow for precise control of thermal emission using graphene.

Examining how electron states impact magnetic textures and future technology applications.

Recent research reveals novel properties of magnon-polaron states in two-dimensional materials.

New SpinFET concept utilizes Weyl semimetals for efficient electronic devices.

A look at energy conversion processes in small systems like molecular motors.

Examining how particles convey information in various systems.

Research on gapped momentum systems reveals potential for advanced technologies.

Research reveals how temperature alters structures in metal nanoclusters.

New methods enhance imaging at the nanoscale using quantum dots.

Boron clustering significantly influences the properties of (B,Ga)N alloys for optoelectronic devices.

Examining how electric current can change magnetization in advanced materials.

Researchers enhance graphene performance for quantum computing using carbon isotopes.

This article explores transition metal halides and their intriguing properties in honeycomb arrangements.

Exploring the behavior of magnons in cone vortex states of magnetic rings.

Research on carbon nanotubes shows promise for particle acceleration applications.

Research reveals key insights into charge order and magnetism in FeGe.

A new program streamlines the analysis of SEM images for nanoparticle detection.

An overview of how light interacts with tiny metallic structures.

New technique enhances imaging of twist angles in layered materials.

Discover the intriguing topological features of carbon's various allotropes.

This study reveals how electric fields enhance magnetism at CMO/CRO interfaces.

NV centers in diamond offer potential benefits for quantum sensing and communication.

This article discusses the relation between Berry curvature and excitons in material science.

Research highlights methods to control light scattering using special incoming waves.

Exploring the potential of DNA nanostars for innovative gel applications.

Investigating CoSnS's kagome lattice structure and its implications for technology.

A deep dive into Frenkel excitons and their roles in semiconductor materials.

Researchers confirm unique band splitting in manganese telluride, revealing altermagnetic behavior.

Investigating unique electrical behaviors in Rashba materials with hexagonal warping structures.

Exploring superconductivity in twisted trilayer graphene and its unique properties.

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

Researchers develop a model to study ferromagnetism in two-dimensional materials.

Twisted trilayer graphene shows unique electronic properties through its layered and twisted structure.

Discover the significant impact of hybrid nanocavities in photonics and advanced technology.

Researchers enhance surface waves using quantum wells for better light applications.

A novel approach improves understanding of how metallic atoms interact at the atomic level.