Latest Articles for Nanotechnology

New methods using quantum dots reveal insights into electrical charge movement.

Exploring how NbSe₂ interacts with light to create electricity.

Researchers investigate friction between gold clusters and graphite at the nanoscale.

Investigating how high tellurium levels alter silicon's electrical properties.

Discover the fascinating world of catenanes and their unique movements.

This study reveals new dynamics in active nematics, enhancing our grasp of biological systems.

This study examines how temperature impacts hysteresis in MoS FETs.

This article examines how temperature alters the movement of objects.

Examining how antiferromagnets influence superconductivity through unique mechanisms.

Exploring the significance of hydrodynamic electronic transport in advanced materials.

Examining the impact of charge noise on quantum computing advancements.

Exploring the CSG method's benefits in nanoparticle design optimization.

Researching the unique magnetic traits of double perovskite oxide Sr NiWO.

New research reveals light's role in observing topological materials.

Research on Bi-Sb alloys reveals potential for efficient spintronic devices.

Explore the world of liquid crystals and their unique behaviors.

Weyl semi-metals exhibit unique properties, with potential uses in advanced technologies.

Research shows improved valley polarization using two-color laser pulses in 2D materials.

Research tracks ionization reactions in helium droplets under radiation exposure.

Discover how tiny metal structures are transforming sensing technology.

Investigating how quantum geometry affects superconductivity in flat-band systems, especially twisted bilayer graphene.

New methods in antiferromagnets enhance data storage and processing capabilities.

Investigating how peptide structure affects electron movement and conductivity.

New insights into the electron-phonon interactions influencing superconductivity in twisted bilayer graphene.

Exploring how hybrid Wannier states enhance our understanding of Bloch electrons in magnetic fields.

Investigating Moiré patterns for advanced excitonic and photonic technologies.

A look at how light moves in 3D cavity superlattices and future tech impacts.

Exploring how Permalloy's magnetization changes under light exposure.

Researchers explore methods to create a band gap in graphene for advanced electronics.

Research explores how materials change properties under light exposure.

Exploring the potential of magnetic Weyl semimetals for advanced electronic applications.

A novel approach improves light detection with geometric design and 2D materials.

Devices that move tiny particles in a specific direction.

Research highlights the unique properties of MXenes in excitonic insulator formation.

Exploring the stable shapes of fluid membranes and their significance.

Study of chiral materials reveals unique light interactions and technological potential.

Researchers examine how twisted graphene impacts superconducting states and electron behavior.

Research reveals insights into excitonic pairing and its potential applications.

Researchers improve Josephson junctions using NbTiN and focused helium ion beams.

Researchers are enhancing quantum photonics using hBN waveguides and single-photon emitters.