Latest Articles for Nanotechnology

Exploring the creation and potential of magnetic metamaterials using ion implantation.

This study explores light's impact on bilayer graphene's thermoelectric efficiency.

Researchers investigate thermal properties of new carbon material, Sun-GY.

Studying how atoms react to light within fullerene structures.

Nanowires may hold the key to maximizing solar energy conversion efficiency.

This research explores the use of optical levers for highly accurate measurements.

A new technique improves imaging of tiny structures on thick materials with reduced artifacts.

Study reveals insights into charge and spin dynamics in unique electronic materials.

Research reveals crucial details about defects in phosphorene affecting electronic applications.

New machine learning methods enhance cobalt oxide property studies and applications.

Investigating NNO and LSMO properties when layered together.

Research explores novel superconductivity in transition-metal dichalcogenides through innovative techniques.

Study reveals how heat moves in oscillator chains with long-range interactions.

An overview of nanoparticle characterization using microscopy techniques.

Examining how grain boundaries influence material properties and behavior during heating.

Researchers are studying how light interacts with heavy atoms to reveal new chemical behaviors.

Research highlights the potential of silicon-vacancy centers in diamonds for quantum applications.

Research reveals breakthroughs in high-density 2D electron gases and their implications for electronics.

Research shows how impurities change behavior of charge carriers in quantum wells.

Research on controlling electron behavior in graphene quantum dots for advanced applications.

Helium implantation enhances the properties of polycrystalline films without causing damage.

New methods enhance study of molecular behavior after light absorption.

New methods integrate multiple nanopores for faster and more accurate measurements.

Research reveals how layering in TMDs enhances superconducting properties.

Learn how simulations improve DNA origami designs and their applications.

Research reveals key insights into spin lifetimes in hybrid organic-inorganic materials.

This article explores the Casimir effect and its significance in quantum mechanics and technology.

Research reveals challenges in CO and oxygen interaction with MoSe material.

Exploring the unique properties and applications of lead halide perovskites in technology.

Research highlights the potential of antiferromagnets in new tech applications.

A look at how processes influence the behavior of metallic alloys.

Exploring the potential of quantum dots in nanowires for future technologies.

The Casimir Effect reveals forces at play in a vacuum.

Nanomachines improve targeted drug delivery, enhancing treatment efficiency and reducing side effects.

AUGUR simplifies finding optimal spots for molecular attachment using advanced techniques.

A look into gapped materials and their fascinating electronic characteristics.

New research reveals mass-like behavior of skyrmions in one-dimensional spaces.

New methods lead to tiny machines with great potential.

Exploring the behavior of double quantum dots in thermoelectric applications.

Research reveals unique properties of exciton-polaritons in aperiodic Penrose tiling.