Latest Articles for Nanotechnology

Researchers investigate electron glass states and polar nanoregions in materials like KTaO.

New method offers real-time tracking of nanoparticles for improved product quality.

Exploring the role of ionic liquids in creating effective metal nanoparticles.

New techniques enhance light interactions with excitons in two-dimensional materials.

Exploring quantum interference effects in unique materials with pseudospin-1 fermions.

Examining how atom movement affects thin films and nanostructures.

Study reveals the complexities of gas flow at nanoscale levels.

Researchers explore ways to control skyrmions for advanced technology applications.

Research reveals methods to manipulate magnetic properties using moiré patterns.

Research expands on polarons, highlighting spin-orbital bipolarons and their impact on materials.

Research reveals atomic-level issues affecting qubit performance in silicon-germanium materials.

Research reveals how NV centers track domain wall dynamics in ferromagnetic materials.

Research unveils how magnetic nanoparticles affect human liver cells.

Researchers study noble gas clusters trapped between graphene layers for unique insights.

Research sheds light on materials' interaction with light and electrons.

Study reveals how surface shape influences atom movement in nanoporous gold.

Research explores how thin films can reduce Casimir forces in nanotechnology.

Study reveals new properties of transition metal dichalcogenides through moiré patterns.

Exploring the effects of magnetic fields on quantum dots with different boundary conditions.

Research reveals new behavior of cobalt atoms on copper surfaces.

Researchers develop new methods for better electrical contacts using graphene nanoribbons.

New insights into magnetic behaviors of layered materials at nearly room temperature.

Scientists study electron behavior in carbon nanotubes with a focus on Wigner crystals.

Researchers create vanadium sulfide materials with unusual properties for future technology.

Research on electron spin behavior in nanojunctions reveals potential for advanced electronic devices.

Examining how triangulenes interact in 2D crystals and their magnetic properties.

New techniques improve the speed and efficiency of optical force simulations.

Research reveals how DNA nanostars achieve superselective binding to surfaces.

Study reveals effects of graphene on the Casimir-Lifshitz force.

Research reveals ways to enhance the stability of pnictogen materials in electronics.

Researchers use DNA nanostructures to improve cell receptor activation for enhanced immune responses.

NV centers offer new opportunities in sensing and imaging technology.

This study examines ways to measure the size and shape of tiny silica particles.

Analyzing heat transfer between electrons and phonons in thin metal films.

Study reveals how niobium alters LaVNbO's structure and electronic behavior.

Exploring the spin-selective conductivity of bilayer WSe2 and its potential in electronics.

A new MIV-transistor design enhances performance in 3D integrated circuits.

Researchers study unique states of magnons in nanomagnetic arrays under magnetic fields.

Copper oxide thin films with silver doping reveal new properties for advanced applications.

ScAlN offers unique properties for advancing electronic and optical technologies.