Latest Articles for Nanotechnology

Exploring the unique light properties of buckled monolayers and their technological implications.

Research shows how unique properties in graphene junctions improve light interactions.

Research on twisted WSe₂ reveals unique insulating properties and electronic behaviors.

This study investigates exciton behavior in a hybrid Bose-Fermi Hubbard system.

Explore how tiny energy fluctuations create forces between plates in a vacuum.

Learn about moiré heterostructures and their fascinating electronic properties.

Research on graphene reveals key insights into superconductivity and Cooper pair dynamics.

This study reveals how water clusters interact with graphene, influencing future electronic devices.

Examining how barriers and oscillation influence electron transmission in graphene.

Exploring the behavior of molecular aggregates under light exposure.

Study reveals unique behaviors of confined states in two-dimensional quasicrystals.

Research on PbTe nanowires reveals potential for secure quantum computing applications.

A look at how phonon magnetic moments in materials like bilayer graphene can be controlled.

Researchers investigate how many-body coherence affects electron flow in materials.

Cr ion implantation changes the optical behavior of MoSe monolayers.

This study explores how excitons behave in polaritonic wires under different conditions.

Learn about a new method for creating strong microstructures.

Exploring the interplay of superconductors and charge carriers for advanced quantum technologies.

Studying how topological features influence heat transfer in nanoparticle systems.

Innovative 2D materials are enhancing the performance of resistive random-access memory.

A look into the modified harmonic oscillator potential and its properties.

A new method enhances 3D chemical imaging while reducing energy use.

Examining the unique properties of kagome lattices in magnetism and conductivity.

A new method enhances the measurement of solid-liquid friction at the nanoscale.

Research on stopped polarization pulses reveals new ways to manipulate electrons in quantum wells.

A look into how ultrastable glasses transition to a liquid state.

Research on FeBr2 explores its unique electronic and magnetic properties.

A look at tracking schemes for resonance frequency measurements in tiny devices.

Research reveals tantalum as a key material for improving qubit efficiency.

Research reveals how Q-factor influences polariton behavior and energy transfer in materials.

Exploring how layer thickness and disorder affect conductivity in superlattices.

New techniques improve nanowire circuits for quantum technology applications.

Research reveals how growth conditions affect the magnetic properties of rare earth-transition metal films.

A new method for precise strain application in MoS2 using piezoelectric materials.

Investigating unique electronic behaviors in topological semimetals through atomic arrangements.

Exploring the effects of material curvature on electron behavior.

Skyrmions in liquid crystals could lead to new technologies in electronics and display systems.

Exploring the unique electronic behavior of four-layer graphene on hexagonal boron nitride.

Study reveals how polarization behaves during topological phase changes in two-dimensional systems.

Magnetic skyrmions show promise for advanced data storage and processing technologies.