Latest Articles for Nanotechnology

Researchers investigate the impact of disorder on Majorana nanowires for future computing.

New SHNO devices promise energy-efficient performance for computing and data processing.

Researchers investigate nitrogen-doped lutetium hydride for its superconducting potential.

Research reveals unique properties of antimony thin films for future electronic applications.

New methods improve stability of indenene for electronics using graphene.

Research uncovers unique magnetic states in layered materials through IL-DMI.

Research on sticking coefficients enhances thin film production on graphene.

Research reveals how temperature influences magnetic properties in BaTiO and CoFeB structures.

Study reveals effects of electron irradiation on magnetite's Verwey transition characteristics.

Discover the unique behaviors of twisted bilayer graphene under magnetic influence.

This article examines fermions moving slower than sound and their interaction with phonons.

Examining how charge affects nanoparticles in various solutions.

Research highlights the potential of magnons in advanced antiferromagnetic materials.

Research reveals how transition metals influence TMDC magnetic characteristics through intercalation.

This research examines how electrolyte solutions behave in confined environments.

Research reveals methods to grow diamonds on lithium niobate and lithium tantalate surfaces.

Studying hot electrons reveals unique behaviors in quantum systems.

Research reveals new behaviors in magnons and energy dissipation effects.

Investigating the effects of polar boron nitride on bilayer graphene's electronic behavior.

Learn how thermal noise currents can reveal material conductivity properties.

Study of Chern insulators reveals advancements in electron behavior and potential technological applications.

Investigating the properties and potential of MnPbBiTe in advanced technologies.

Exploring the behavior of grain boundaries under stress in various metal structures.

Bilayer silicene shows surprising thermal conductivity properties that could impact future technology.

Research reveals high-quality properties of AlN layers for advanced applications.

Surface defects significantly influence material behavior in critical systems and phase transitions.

Researchers explore a unique polymorph of Kitaev magnets and its magnetic behaviors.

Researchers control magnetism in graphene nanoribbons for future electronic applications.

Exploring heat transfer mechanisms when materials are closely positioned.

Bilayer graphene shows promise for future spintronic technologies.

Applying magnetic fields reveals new behaviors in unique materials known as Dirac fermions.

A new approach reveals insights into STNO synchronization and performance.

This study highlights how laser annealing improves MoS₂ film properties for flexible electronics.

Research on Mössbauer nuclei enhances light manipulation in waveguides for quantum optics.

The 4D Camera enhances electron microscopy with high-speed imaging and precise data capture.

Researchers make strides in cooling tiny particles suspended in light for advanced studies.

A promising metal halide could improve energy conversion from waste heat.

A look into topological semimetals and their unique electric properties.

This article discusses coordination defects in graphene and their effects on growth.

The Lieb lattice reveals unique light behaviors in plasmonics.