Latest Articles for Nanotechnology

This study reveals how electric fields enhance magnetism at CMO/CRO interfaces.

NV centers in diamond offer potential benefits for quantum sensing and communication.

This article discusses the relation between Berry curvature and excitons in material science.

Research highlights methods to control light scattering using special incoming waves.

Exploring the potential of DNA nanostars for innovative gel applications.

Investigating CoSnS's kagome lattice structure and its implications for technology.

A deep dive into Frenkel excitons and their roles in semiconductor materials.

Researchers confirm unique band splitting in manganese telluride, revealing altermagnetic behavior.

Investigating unique electrical behaviors in Rashba materials with hexagonal warping structures.

Exploring superconductivity in twisted trilayer graphene and its unique properties.

Research reveals methods to achieve valley polarization in TMDs at room temperature.

Researchers develop a model to study ferromagnetism in two-dimensional materials.

Twisted trilayer graphene shows unique electronic properties through its layered and twisted structure.

Discover the significant impact of hybrid nanocavities in photonics and advanced technology.

Researchers enhance surface waves using quantum wells for better light applications.

A novel approach improves understanding of how metallic atoms interact at the atomic level.

Exploring the potential of 3R-MoS2 in nonlinear optical applications.

Researchers manipulate magnetic properties in chromium bromide for future technology.

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

Study reveals how altermagnet orientation influences spin pumping effects.

A fresh approach improves heat conduction simulations at the molecular level.

A new phase plate enhances electron microscopy capabilities for nanoscale studies.

Graphene's unique properties lead to advanced sensing applications in various fields.

Research on using CCMP for magnetization switching in nanoparticles at room temperature.

Exploring the unique properties and applications of 2D antiferromagnetic materials.

Twisted hBN bilayers show exciting properties for optoelectronic applications.

This article explores how magnetic fields can enhance electron trapping in graphene quantum dots.

Fullerides combine carbon fullerenes and alkali metals, showcasing unique superconducting properties.

New findings on Fe CoGeTe may advance spintronic technologies.

FeGaTe shows promise for efficient data storage and electronics.

Research focuses on enhancing 2D magnets for future electronic devices.

A study reveals the effects of charge noise on quantum dots and qubits.

Exploring the unique properties of skyrmions in nanodots.

New methods focus on polaritons for better heat transport in tiny electronic devices.

Exploring how atomic movement affects friction at quantum levels.

Exploring the effects of dipole interactions in light-responsive 2D materials.

Study reveals how van der Waals materials behave under different conditions.

This article examines the behavior of topological surface states on lead-covered insulators.

LK-99 could change our understanding of superconductivity with its unique structure.

Exploring the unique behaviors of ScV Sn kagome metals and their charge density waves.