Latest Articles for Nanotechnology

Research on skyrmions in SAFs shows promise for future tech applications.

New OPO design allows efficient frequency combs at lower energy levels.

Exploring the role of defects in tubular crystals and their applications.

Discover the potential of perovskite nanocrystals in electronic devices.

Research reveals the behavior of electron bubbles in graphene's unique solid states.

This study highlights the behavior and potential applications of Janus colloids in various fields.

Niobium halides exhibit unique properties promising for advanced electronics.

Study reveals unique behaviors of noncentrosymmetric superconductor junctions, highlighting nonreciprocity.

Explore the fundamental ideas behind thermodynamic limits and electronic structure models in materials science.

Quantum memristors enhanced by machine learning can transform memory technology and computing systems.

Research reveals how doping and pressure alter (Mn Mg) Si Te's magnetic and electronic behavior.

This article explores how quantum dots behave in various conditions and their practical uses.

Researchers create a quantum simulator with molecular qudits, enhancing quantum task performance.

Exploring the unique properties of Weyl semimetals through the study of ReO.

Examining how heat transfers between closely spaced metal surfaces.

Exploring the unique properties and potential of magic-angle twisted bilayer graphene.

2D materials exhibit unique properties with numerous applications in electronics and quantum computing.

Research highlights the potential of graphene nanostructures for improved heat flow control.

A study of electron behavior in multi-path Aharonov-Bohm interferometers made from graphene.

Iodinenes offer unique properties for future technological advancements.

This article explores how Dzyaloshinskii-Moriya Interaction affects magnetic domain walls in nanowires.

Exploring the potential of halide double perovskites in solar cells and LEDs.

A study on rare events, convergence, and feedback control in nanoparticle systems.

Research reveals how twisted layers alter electronic properties and enable fractional quantum effects.

Research on bismuthene reveals how magnetic impurities influence electrical properties.

Examining high-harmonic generation to reveal material behaviors and applications.

Exploring the complex behaviors of graphene under strong magnetic fields.

Researchers develop RNA structures to create functional synthetic cells.

Research reveals how strain affects electronic properties in 2D materials like WSe2.

Research examines how laser heating affects particle interactions in fluid mixtures.

This article explores how light momentum behaves in various natural light situations.

A look into grain boundaries and facet formation in materials.

Researchers aim to manage electron behavior in graphene for practical uses.

Researchers unveil cobalt defects in WS2 for next-gen quantum technologies.

Researchers create larger alginate droplets to enhance cell encapsulation and support healing.

Examining how giant fullerenes can enhance high-order harmonic generation.

Study reveals how magnetic fields affect electrical currents and resistance in LaTiO/SrTiO interfaces.

DAISY provides a new way to measure nanoparticles in complex environments.

Research reveals potential applications of antiferromagnetic skyrmions in modern technology.

Research on quantum dots reveals their potential for advanced technologies and communication.