Latest Articles for Nanotechnology

A look into quantum graphs, their structure, coupling, and spectral characteristics.

A look into how heat transfers between small objects.

Explore how spin-orbit coupling impacts energy levels and conductivity in kagome networks.

Exploring the impact of quantum dots on electronics and photonics.

Research reveals unique interactions between bismuth bilayers and magnetic materials.

New technique measures atomic arrangement in thin films using standard lab x-ray sources.

Research highlights the dielectric properties of amorphous Boron Nitride for electronics.

Understanding heat transport is crucial for advancing quantum technology performance.

Skyrmions could transform magnetic devices for memory and processing.

Study reveals how magnetic order affects electron and phonon behavior in MnBiTe.

Researchers develop a model to enhance nanoparticle use in cancer therapy.

This study reveals high-readout accuracy in tin-vacancy centers for quantum networks.

New findings reveal how coupled oscillators affect heat transport in nanoscale systems.

Analyzing how noise affects topological orders and their potential in quantum technology.

Scientists enhance imaging methods for better resolution of tiny objects.

Examining unique properties and behaviors of supersolids in material science.

Exploring the role of NV centers in measuring material properties at the nanoscale.

Research reveals how structure impacts the properties of polymeric carbon nitrides.

Research highlights the potential of Janus MXenes in thermoelectric applications.

Hydrogen influences the electronic structure and properties of vanadium-zirconium metallic glass.

Investigating how hairy particles change shape at liquid-liquid boundaries.

Research enhances imaging techniques using nanodiamonds for clearer NMR signals.

Researchers enhance ionic conductivity in sodium-ion batteries by modifying NASICON materials.

New model sheds light on unique properties of twisted transition metal dichalcogenides.

Study reveals methods to control magnetic domain walls in nanowires.

This study examines how transition metal doping alters TiS's magnetic and electronic properties.

This article explores how free electrons interact with light for advanced applications.

Examining how annealing influences the superconducting properties of niobium crystals.

Research reveals effects of spin-orbit coupling in two-dimensional materials for electronics.

Research uncovers links between shapes of porous materials and their chemical reactions.

Research reveals how angular momentum in light can enhance communication and physics.

Exploring the unique properties and applications of flat bands in light manipulation.

A study on how altermagnets and superconductors interact to improve electronics.

Graphene's unique electronic states offer new insights into material science and electronics.

A study on how carboxylate ligands affect the properties of lead sulfide nanocrystals.

Discover the workings and potential of quantum heat engines in energy production.

Researchers study spin arrangements for advanced electronic applications.

Exploring the effects of mechanical stress on fluids in tiny materials.

Exploring how external fields affect electron behavior in quantum dots.

Research reveals new ways to control light in layered materials.