Latest Articles for Nanotechnology

A novel method improves how we study materials that conduct electricity.

Exploring the electronic behaviors of half-Heusler compounds and their applications.

This article covers the unique properties and applications of lead germanate oxide.

YSR tips improve the study of magnetic spins at atomic levels.

Discover how nanowires are shaping quantum technology through emission and detection innovations.

Point defects play a crucial role in determining material behavior and applications.

Research highlights the role of spin-orbit interactions in improving quantum bits.

Research reveals how stacking affects light emission in hexagonal boron nitride.

Research reveals novel interactions in hybrid plasmonic systems affecting light emissions.

Research focuses on tiny devices converting heat into electricity using unique materials.

Investigating how electric currents can manipulate Bloch points in magnetic materials.

Altermagnetism showcases unique properties in certain materials, influencing future technology.

LaNiO3 shows high-temperature superconductivity with mild pressure and oxygen management.

Scientists reveal unique electron states in materials with helical magnetic fields.

Researchers explore new approaches to create efficient ferroelectric devices with layered materials.

Researchers develop a technique for better layer control on nanowires.

This study examines how film thickness affects the structure and magnetism of iron.

Exploring the unique properties of chiral magnets and their applications in technology.

This article examines how salt solutions behave differently in tiny channels.

A closer look at the unique properties of MOF perovskites and their applications.

Research combines deep learning and graphene to create versatile metasurfaces.

Nanomotors display unique behaviors influenced by complex chemical patterns.

A look into how gold's optical properties change with temperature and light.

Exploring how charge density behaves in layered metals through light and electromagnetic interactions.

Research reveals how liquids behave differently in small spaces.

New methods are improving 3D imaging at the atomic scale for various materials.

Research reveals methods to control electron injection in carbon nanotubes with minimal noise.

Investigating how temporary bonds affect charge transfer between fullerene molecules.

Quasicrystals exhibit unique magnetic behaviors challenging our traditional understanding of magnetism.

This article discusses methods to manage material behavior in surface coatings.

Research reveals potential of bilayer graphene and hBN in electronic technology.

Researchers use barium titanate structures to improve light manipulation for various applications.

Researchers use light to influence phonon behavior in graphene, enhancing its properties.

New findings reveal enhanced charge-to-spin conversion using PtSe and NiFe materials.

A look into charge transport mechanisms in AGNRs and their implications.

Scientists study quasi-bound states in 2D materials with unique electronic properties.

Recent findings highlight the role of surface charge on CNT conductivity.

Examining how rotating micro-swimmers move and interact near surfaces.

Line defects in 2D TIs disrupt edge states and conductance, revealing new pathways for electron flow.

Researchers are developing methods to speed up systems' return to equilibrium.