Latest Articles for Nanotechnology

Study of charge density waves reveals new thermal behaviors in materials.

A look into the unique thermodynamic properties of Fermi gases and their implications.

Exploring the unique behavior of plasmonic random lasers and their potential applications.

A model revealing how electrons move in and out of quantum dots.

Research on moiré superlattices reveals new phases in layered materials.

Patterned dielectric superlattices reshape graphene's electronic properties for future technologies.

Research investigates superconductivity potential in heavily-doped single-layer graphene.

Investigating the impact of twist angles on the electronic properties of graphene layers.

This study examines how temperature affects the movement of gold nanoparticles.

Research unveils how patchy particles can form unique quasicrystal structures.

Study of electric charge generation in materials under strain at nano-scale.

Exploring the formation and potential of Meron Kekulé lattices in technology.

Exploring the potential of nitrogen-vacancy centers for quantum technology applications.

New techniques in DCR promise precise measurements at nanoscale using counter-propagating solitons.

Research reveals unique properties of graphene quasicrystals and their potential in superconductivity.

K-means clustering helps researchers analyze complex electronic behaviors in materials.

Study reveals how defects in silicon affect laser light absorption.

New methods improve understanding of particle and energy movement in complex systems.

Researchers explore 1T-CrTe2 for advanced data storage and processing technologies.

Research reveals complex interactions in 1T-VSe during structural transitions.

A novel gate layout improves valley-polarized current generation in two-dimensional materials.

Learn how laser light influences electrical behavior in graphene materials.

Research reveals unique properties of zigzag-edged CrN nanoribbons for future technologies.

N²AMD framework enhances accuracy and efficiency in studying material dynamics.

A look at the contributions to spin and orbital effects in materials.

Discover how photonic crystals manipulate light through atomic doping.

Research on PF2 ions aims to enhance phosphorus accuracy in quantum computers.

Research reveals new methods for creating oxide nanoscrolls with potential applications.

Examining spin relaxation and diffusion in monolayer 1T'-WTe for advanced electronics.

New research highlights how rhombus defects enhance the stability of quasicrystals.

Research shows thicker kagome films can also exhibit superconductivity.

Research on BaFe(As,P) enhances understanding of superconducting behavior and properties.

Exploring the unique properties and applications of black phosphorus in electronics.

A look into the innovative altermagnetic material 2D-CRO and its potential uses.

New method enhances accuracy in placing tiny gold droplets for material studies.

Molecular spin systems are crucial for advancements in quantum technologies.

This study examines how liquid nano-threads respond to disturbances and thermal movements.

Exploring how particle size affects photoluminescence in materials for energy applications.

Research reveals unique properties of twisted bilayer graphene and its potential applications.

Investigating the iron-magnetite interface reveals insights for material improvements.