Latest Articles for Nanotechnology

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.

Research reveals complex interactions in zigzag graphene nanoribbons affecting electronic states.

This study examines how micrometer-sized particles stick to surfaces in hydrogen plasma.

Research reveals new ways to control magnetization in advanced materials.

New findings on SB-FETs using 2D materials for better electronics.

Investigating how substrates influence silver-platinum nanoparticles' structure and behavior.

Research shows nitrogen isotopes can boost quantum sensor performance in hexagonal boron nitride.

Advancements in nanoreactor design enhance enzyme efficiency and stability for various applications.

Exploring fermion-parity qubits and their potential in quantum information processing.

SQUIDs are crucial for measuring small magnetic fields and moments with high sensitivity.

A deep dive into electron behaviors in single-walled carbon nanotubes and their implications.

A new method using NV centers enhances magnetometry and motion detection of nanoparticles.

Research on active nematics reveals new ways to control motion.

Programmable matter allows materials to change shape and properties, offering diverse applications.

Exploring the effects of doping on HfS2's electronic properties.

Exploring new laser technologies using topological insulators and Landau levels.

Bilayer graphene shows promise for generating currents from light with applied voltage.

Researchers investigate the interplay between normal metals and superconductors in electrical currents.

Research reveals how Fibonacci structures influence superconducting properties through disorder.

Research uncovers how ultrathin films interact through the Casimir effect.

Diamond defects offer exciting potential in quantum advancements.

New material offers insights into quantum behaviors and phases.

Research sheds light on electron behavior in chiral molecules affecting spin preferences.

W states hold promise for secure quantum communication and advanced technologies.

This article explores decoherence in matter-wave interferometers and its implications for quantum physics.

Scientists study tiny particles in air to uncover hidden forces and materials.