Latest Articles for Nanotechnology

NV centers offer new opportunities in sensing and imaging technology.

This study examines ways to measure the size and shape of tiny silica particles.

Analyzing heat transfer between electrons and phonons in thin metal films.

Study reveals how niobium alters LaVNbO's structure and electronic behavior.

Exploring the spin-selective conductivity of bilayer WSe2 and its potential in electronics.

A new MIV-transistor design enhances performance in 3D integrated circuits.

Researchers study unique states of magnons in nanomagnetic arrays under magnetic fields.

Copper oxide thin films with silver doping reveal new properties for advanced applications.

ScAlN offers unique properties for advancing electronic and optical technologies.

Indirect excitons in van der Waals heterostructures show promise for future quantum technologies.

Recent findings on interlayer excitons reveal unique properties and potential applications.

Scientists study TaFe 1.14Te 3 for its unique magnetic and electrical properties.

NV centers in diamonds offer unique capabilities for precise sensing applications.

Researchers improve magnetic field measurement using diamond membranes on 2D materials.

Study reveals how flat particles buckle under pressure at liquid surfaces.

Nanographenes, especially triangulenes, show promise for advanced magnetic applications.

Research on HEAs reveals potential for advanced superconducting materials.

This article examines how work function variation affects electron emission in devices.

Research reveals how restricting space changes the behavior of ring polymers.

A new imaging technique reveals details of small surface structures.

Exploring the mechanical properties and applications of hybrid schwarzite materials.

Research focuses on enhancing graphene properties through transition metal dichalcogenides.

Research on graphene and WSe2 opens doors for spintronics and new technologies.

Research on Fe GeTe reveals potential for efficient, non-volatile memory devices.

New research highlights the potential of multilayer graphene in quantum technologies.

This article explores the relationship between carbonyl bonds and light behavior.

NBT shows promise with unique electronic, magnetic, and optical properties for diverse applications.

This paper discusses detecting chirality in twisted bilayer graphene through experimental methods.

New magnetism type blends features of antiferromagnets and ferromagnets.

Exploring the unique behaviors of antiferromagnetic materials and their electronic applications.

Research focuses on optimizing photon collection for scalable quantum systems.

Discover the latest findings on graphene's properties and applications.

Research highlights electron behavior in gapped graphene with laser and magnetic fields.

An overview of Weyl semimetals and their intriguing electronic characteristics.

Investigating how charged defects affect the properties of monolayer MoS.

New study shows TiN nanoparticles significantly increase light absorption in solar cells.

Thin films of iron and gadolinium reveal unique magnetic structures.

Research reveals unique behaviors of electrons in 2D systems at oxide interfaces.

A look into the unique properties and structures of Cs C and its superconductivity.

Researchers stabilize charge density waves using endotaxial synthesis, observing new properties.