Latest Articles for Nanotechnology

Understanding how molecular vibrations influence polaritons can lead to innovative applications.

Research reveals promising applications for TMDs in electronics and optics.

A fresh look at light and matter interactions in quantum physics.

Research reveals promising light generation using FAPbBr3 at room temperature.

Research reveals new NbS - 2D compounds with unique properties for future tech applications.

Research highlights the impact of ruthenium on iron's magnetic properties.

Researchers develop stable domain-wall structures using ferroelectric materials for advanced electronics.

Researchers aim to create icosahedral quasicrystals from single-particle systems.

Exploring the significance and applications of magnetic van der Waals materials.

Research reveals how currents affect DNA's movement and electron behavior.

Exploring the unique properties of magnons in altermagnets.

Study reveals how temperature changes exciton brightness in WSe2 monolayers.

Scientists study how colloidal particles form and evolve structures in confined spaces.

Enhancing ToF-SIMS methods to accurately analyze semiconductor structures and improve electronic devices.

CrPS shows promise for advancements in spintronics and optoelectronics.

Examining disorder's impact on mechanical quasicrystals and their unique topological properties.

Exploring the behavior and potential of magnetic nanoparticles in various fields.

Hybrid skyrmions may change the future of data storage and processing.

This article examines how nanoparticles act in liquids and gases.

Researchers combine NV centers and waveguides to improve magnetic field detection.

Research reveals significant changes in shift current as materials approach a gapless state.

Research reveals how xenon alters graphene's electronic properties.

Study reveals molecular assembly effects on diamond's electrical properties.

Study reveals unique electrical behaviors at step edges of NiS2.

Advanced techniques for capturing atomic-level images enhance material understanding.

Researchers reveal unique properties of a specific high-entropy spinel oxide.

Research on color centers in hBN shows promise for future light-emitting technologies.

Research reveals efficient pathways in graphene for enhanced quantum information transfer.

Exploring the unique behavior of fractional vortices in superconductors.

Exploring new ways to create effective copolymers for various applications.

Research on how temperature impacts tiny mechanical devices for better performance.

Thiophene's light absorption reveals complex interactions, critical for technology applications.

ABCA-stacked tetralayer graphene shows potential for energy-efficient spin currents without loss.

Research reveals how defects in MoS2 affect its heat conductivity, enhancing device performance.

Exploring how strain influences spin qubit performance in quantum computing.

Research reveals interactions between electron spins using nitrogen-vacancy centers in diamond.

Research on 1T-RhSeTe reveals its potential in superconductivity and electronic properties.

Discover the fascinating behaviors of quantum quasicrystals and their excitations.

Studying how engineered shapes form unique liquid crystalline materials.

This study seeks to reduce transition times between states in Brownian gyrators.