Latest Articles for Nanotechnology

Research reveals complexities in superconducting properties of a newly discovered material.

Researchers enhance understanding of light interactions using computer simulations of symmetrical shapes.

This study reveals how particles come together and its implications for health and materials.

This study reveals how CO2 position on gold alters charge injection energies.

A detailed look into the structure and properties of LK-99.

Machine learning aids in controlling quantum dots for future computing.

Researchers work to enhance light interactions using gain materials in metal cavities.

New insights into temperature behavior at moving liquid contact lines.

Research highlights the challenges of excitons in thin hBN films and their light-emitting potential.

Study reveals thermal conductivity properties of 10H-SiC thin films for high-temperature applications.

Research highlights the potential of hBN for quantum state generation.

Research on nitridized aluminum reveals its potential in superconducting applications.

Examining how temperature affects h-BN growth on Ir.

Exploring emergent inductance in strongly correlated magnets and its potential applications.

Research reveals methods to boost light intensity using plasmonic structures.

Exploring Majorana fermions and their potential in quantum computing and spintronics.

Research explores bilayer CrI/WTe for efficient spintronic devices.

Researchers unveil ZIA phases, promising new properties and applications in technology.

Researchers develop a method to control excitons using electric fields in two-dimensional materials.

Exploring energy changes and friction in twisted graphene material layers.

This study investigates how tiny particles behave in unique liquid crystal environments.

This study examines factors affecting the assembly behaviors of building blocks.

Study reveals water's role in electric double layers with organic solvents.

Research on copper and vanadium's impact on insulators reveals new electronic states.

Exploring the potential of line defects in graphene for new applications.

Exploring how Beltrami surfaces influence electron movement and energy states.

Exploring the effects of geometry in Josephson junctions and their complex behaviors.

Research reveals materials that can absorb nearly all incoming light with unique properties.

Nanogap antennas harness light for applications in quantum technology and medical diagnostics.

New techniques allow for precise control of thermal emission using graphene.

Examining how electron states impact magnetic textures and future technology applications.

Recent research reveals novel properties of magnon-polaron states in two-dimensional materials.

New SpinFET concept utilizes Weyl semimetals for efficient electronic devices.

A look at energy conversion processes in small systems like molecular motors.

Examining how particles convey information in various systems.

Research on gapped momentum systems reveals potential for advanced technologies.

Research reveals how temperature alters structures in metal nanoclusters.

New methods enhance imaging at the nanoscale using quantum dots.

Boron clustering significantly influences the properties of (B,Ga)N alloys for optoelectronic devices.

Examining how electric current can change magnetization in advanced materials.