Latest Articles for Nanotechnology

Research reveals how atomic movement influences electron emission in molecules.

Research highlights the unique benefits of superconductivity in atomically thin materials.

A look into the Quantum Anomalous Hall Effect and its implications in electronics.

New metasurfaces that control light using electrical signals offer promising applications in optics.

Investigating how twist angle affects spin-orbit coupling in graphene and NbSe materials.

Active compensation improves image quality in magnetic particle imaging.

Study of 2-OS reveals its potential in advanced electronic technologies.

Ferrofluids exhibit unique magnetic behavior influenced by particle size and environmental conditions.

This article examines how fullerenes improve aluminum-based materials.

Researchers are enhancing M-type ferrites by incorporating cobalt and lanthanum to improve magnetic properties.

Analyzing gallium atom movement to enhance gallium oxide performance in electronic devices.

Researchers unveil unique LaSb thin films showing superconductivity at higher temperatures.

This study examines the unique behavior of Janus colloids in mixtures and their interactions.

An overview of the forces at play in quantum friction between metallic surfaces.

Research reveals promising spin properties in graphene layers influenced by SnTe interactions.

New techniques allow precise control over tiny particles using light.

Study reveals how manufacturing variations impact optical performance of nanostructures.

Discover the fascinating properties and formation of quasicrystals.

Research reveals unique behaviors of neodymium nanomagnets at tiny scales.

Researchers study strong coupling to reveal new material properties through light interaction.

New methods enhance control over single photon polarization using nanopillars.

Examining giant atoms' interactions and coherence in complex 2D environments.

Research on magnetic nanoparticles reveals insights into their flow behaviors in complex materials.

Examining how the shape of space influences scattering of spinless particles.

New methods reveal detailed electronic states in bilayer CrX materials.

Exploring how graphene advances terahertz applications in sensing and communications.

An overview of nanocrystals and their role in light technologies.

Research reveals how nanoporous tantalum performs under stress and its applications.

Exploring the uses of topological Fano resonance for advanced sensing applications.

X-ray multibeam ptychography allows faster, non-destructive imaging of complex materials.

A study on optimizing tight-binding models for electronic properties of Janus TMDCs.

Research reveals complexities in phase transitions, highlighting electron-lattice interactions.

Research reveals how external forces affect the magnetism of biphenylene network carbon material.

Study reveals boron-nitride nanobelts' potential in capturing greenhouse gases.

Investigating acoustic Casimir forces and Bose-Einstein condensation in small helium samples.

Researchers uncover unique electron behaviors in two-dimensional Dirac materials.

Tilted P-N junctions enhance valley polarization in graphene for better electronic devices.

Research reveals light interactions with achiral nanostructures can exhibit circular dichroism.

New insights into Josephson junctions using nanowires for quantum computing.

Study reveals how collector size influences fiber alignment in electrospinning.