Latest Articles for Nanotechnology

New imaging technology reveals how nanoscale materials behave under heat.

Examining the properties and potential applications of hybrid perovskites.

Study of gold and silver atomic contacts under magnetic influence.

Hybrid metal-semiconductor devices reveal complex electron behaviors under varying conditions.

An overview of how crystals form and their significance in science.

Research reveals how blood affects silver's ability to fight bacteria.

Control magnons with electric fields in multiferroic materials like NiI.

Examining how temperature influences electron and hole behavior in CsPbI nanocrystals.

Research shows how disorder affects topological phases in mechanical systems.

Colloidal semiconductor nanoplatelets show promise for efficient single-photon emission.

Examining the unique properties of quasiparticles and their fractional statistics.

Researchers use TD-SCHA to better simulate quantum behaviors in materials, focusing on strontium titanate.

MXenes showcase unique properties that could revolutionize energy storage and electronics.

Research focuses on improving electrical contacts to enhance quantum computing.

BaCo(AsO) shows remarkable heat conduction linked to magnetic properties.

Research reveals unique electron behaviors in twisted bilayer graphene's moiré patterns.

Researchers study the charge behavior of CuPc on NaCl layers using STM.

This article discusses using machine learning to speed up DFT calculations in materials science.

A look into the behavior and applications of magnetic nanoparticles, particularly in chains.

A look into how tiny particles affect friction in materials.

Researchers enhance heat transfer efficiency using magneto-optical nanoemitters and magnetic fields.

A novel silicon-aluminum capacitor could enhance superconducting circuit performance.

New methods enhance temperature measurement using continuous monitoring probes.

Scientists study nanoparticles using lasers to gain insights into quantum behavior.

New hybrid structures enhance control over spin waves for innovative technology applications.

Study reveals how self-propelled particles affect clustering during phase changes.

A new model explores mechanical interactions in silicon anodes to tackle voltage issues.

New techniques improve single photon emitters for quantum technology applications.

Study of charged particle movement in fluids under electric fields.

Research combines machine learning and self-assembly for better nanoparticle creation.

Research shows NV centers can produce reliable random numbers for secure communication.

Tiny fibers interact with light for advancements in multiple fields.

Investigating how thermal fluctuations influence fluid behavior in small systems.

Recent research sheds light on electron movement in quantum dot arrays.

Research unveils the distinct behaviors of quasicrystals made from tungsten diselenide.

Exploring the intriguing interactions of the Casimir effect in various fields.

Exploring the transition between fluid-like and structured electron states in two-dimensional materials.

Learn how pNIPAM microgels respond to temperature changes and their applications.

Study reveals how temperature impacts HfO2's structural phases.

New research shows carbon nanoscrolls can greatly enhance electrical conductance under magnetic influence.