Latest Articles for Nanotechnology

New methods improve secure information transfer in quantum communication networks.

This study reveals how energy flow influences quantum probabilities through electron-photon interactions.

New designs of silicon quantum dots show promise for quantum computing.

Exploring the role of SCAN functionals in material electronic structure calculations.

A look at the role of focused ion beam technology in multiple fields.

Research on helium nanodroplets reveals ionization processes and detection efficiency.

Investigating CaRuO₄ reveals potential for novel electronic device applications.

New CsSb films show high efficiency and stability for electron beam applications.

Researchers investigate supercurrent behavior in novel nanowire Josephson junctions.

Research into exciton-polaritons reveals new pathways for laser technology and photonics.

Examining how vortex lattices influence heat transfer in superconductors.

A look at how fluids behave in confined spaces and its technological implications.

Exploring the properties and challenges of bismuth selenide in topological insulator research.

Examining how pressure influences superconducting properties in -MoB material.

Black phosphorus shows unique properties for electronics but faces several challenges.

CrTe shows unique magnetic properties with potential applications in advanced technology.

Magnetic nanospheres show promise in trapping and manipulating particles for advanced technologies.

Magnetic skyrmions hold promise for future data storage and processing technologies.

New methods for predicting metastable materials may unlock unique properties for various technologies.

Exploring the structure and stability of Co-Pt nanoparticles for advanced applications.

Research unveils new methods for detecting light phase with plasmonic nanoantennas.

Explore the significance of Tg in thin polymer films and its influencing factors.

Research reveals insights on thermoelectric properties of double quantum dots under temperature differences.

Research reveals exciting interactions in MoSe-WSe heterobilayers for future applications.

A study on Xenes and their potential in flexible electronics.

Discover how magnetic fluids self-assemble into unique structures and their applications.

This study explores how charge screening occurs in graphene using mathematical modeling.

Investigating methods to measure and reduce noise in double quantum dots for better performance.

Exploring the potential of SiH-CdCl heterostructures for energy applications.

Enhancing chemical reactions using bimetallic plasmonic catalysts for energy applications.

Research reveals a method to induce circular dichroism in WS using a chiral metasurface.

A new method improves spin-orbit coupling treatment in materials science calculations.

Examining how tiny systems behave differently from larger ones.

New method for valley switching shows promise for future electronic devices.

Exploring the structural features and charge behavior of 2D perovskite cuprates.

Discover how large-angle twisted bilayer graphene reshapes electronic properties and applications.

Block copolymers showcase unique properties shaped by their molecular structures and arrangements.

New model improves shear force estimation in Atomic Force Microscopy.

Exploring the unique properties of twisted bilayer graphene and its potential applications.

An overview of quantum Brownian motion and its significance in modern physics.