Latest Articles for Nanotechnology

A novel technique improves the study of NV centers for quantum applications.

Research reveals how surface changes in CaP affect magnetic properties.

A look into the dynamics and behavior of soft materials transitioning to a glassy state.

Research integrates valley physics with quantum systems for better electronics.

Research on using nanoparticles for stable emulsions in food, cosmetics, and pharmaceuticals.

Research reveals new aspects of Coulomb drag in low-dimensional systems.

Examining how skyrmions and Chern bands interact in layered graphene materials.

This research highlights rhombohedral tetralayer graphene's role in superconductivity and the Hall effect.

Research reveals surprising effects of silver particles in gold structures on electrical resistance.

This study examines frequency-dependent viscosity effects on molecular movement in liquids.

Learn how scientists are improving the stability of DNA structures for various applications.

Research reveals unique superconducting properties of van der Waals materials.

Examining core-shell nanoparticles for improved drug delivery and measurement techniques.

New techniques in controlling particles offer insights into quantum mechanics and technology.

Research highlights the relationship between piezoelectric materials and the Casimir force.

Examining the potential of micas in modern electronics.

Researchers highlight advances in quantum coherence with electronic flying qubits.

Examining how temperature affects charge transport in perovskite materials for enhanced technology performance.

Study reveals rapid charge transfer in MoS2 layers on gold surfaces.

Hexagonal boron nitride shows promise for advances in quantum information processing.

This article examines how pressure alters the electronic and magnetic traits of NiO.

Investigating stability and properties of Wigner crystals and Mott insulators in TMDs.

Exploring how edge imperfections and magnetic fields affect topological insulators.

A look into how twisted bilayer graphene impacts superconductivity and charge orders.

Research reveals new methods to control chiral light with nanoparticles for advanced technology.

Enhancing magnetic sensing with NV centers for improved sensitivity and performance.

Evaporating droplets create unique patterns influenced by salt and polymer interactions.

An overview of the Casimir effect and nonlocality in light-matter interactions.

Researchers manipulate excitons in monolayer MoSe2 using strain for advanced optoelectronic applications.

Study shows guanidinium cations adhere to the air-water interface, impacting chemical processes.

Research reveals unique properties and behavior of topological metals under magnetic fields.

New findings show superfluorescence in hybrid perovskite films at room temperature.

Examining how silicon dangling bonds influence reactions with phosphorus bromide and phosphine.

New method enhances measurement of optical fields in three-dimensional space.

This research explores biased cooling methods for improved control in quantum circuits.

ZGNR-Gs offer exciting possibilities for electronics and sensing technologies.

Copper nanoparticles show promise in enhancing cancer treatment outcomes.

This study examines how impurities affect electron behavior in graphene with magnetic fields.

Learn about unique magnetic structures and their potential in electronics.

Exploring the unique electronic properties of multilayer graphene and their implications.