Latest Articles for Nanotechnology

New tools improve our ability to study heat at small scales.

This study examines spin waves in transition-metal dichalcogenide bilayers for future electronics.

Nanodiamonds improve EPR sensing in biological research, offering clearer insights.

Research unveils how charge distribution affects fluid movement in treated nanochannels.

Investigating the relationship between quantum geometry and superconductivity in oxide interfaces.

Exploring the liquid and solid phases of multilayer graphene in magnetic fields.

Study reveals unique electronic states in bilayer graphene domain walls.

Electron ptychography enables detailed imaging of atomic structures and interactions.

This article examines how surroundings affect gold-palladium nanoparticles' formation and properties.

Research reveals unique superconducting behaviors in aluminum and gold structures.

Researchers reveal La Ni O, a new superconductor that operates under high pressure.

This article examines the superconducting properties of LaNiO3 under pressure.

A simple setup using quantum dots for effective heat transfer.

Research reveals new properties of zigzag Haldane nanoribbons and their unique topological states.

Study reveals stability and electronic features of CPA monolayers with potential applications.

Magnetic nanoparticles show promise in cancer treatment and cell behavior manipulation.

Investigating how light affects molecular behavior in optical cavities.

Exploring the role of Raman spectroscopy in studying Platinum Diselenide layers.

New findings on interface excitons offer insight into optoelectronics and quantum technologies.

Researchers improve nanoacoustic devices with new mesoporous materials for better environmental sensing.

Research on CoSn thin films reveals insights into flat band physics.

Researchers study unexpected behaviors in nano-resonators and their effects on performance.

Researchers develop cavities to enhance light-matter interaction studies at the nanoscale.

Research on 1T-VSe reveals insights into charge density waves and material properties.

Frustrated magnets exhibit diverse behaviors due to intricate spin arrangements.

Zinc-treated nanocrystals improve stability and efficiency for single-photon sources.

New methods improve efficiency in second harmonic generation for optical devices.

Research on graphite nanoribbons reveals potential for innovative light polarization applications.

Research reveals how stacking disorder affects RuCl's magnetic and thermal properties.

Exploring how material properties influence the Casimir-Lifshitz force in gapped metals.

This article examines how fractures form in 2D materials like graphene.

New larger resonators improve performance in sensing applications.

A look at the unique properties and applications of doped 2D diamond materials.

Scientists uncover conductive properties of domain walls in lithium niobate crystals.

Recent studies indicate Cu-substituted apatite may conduct electricity without resistance at room temperature.

Research focuses on spin decoherence in VOPc@GNR systems for quantum computing advancements.

Research reveals complex behaviors of electrons and holes in layered materials.

This article examines how surface types influence water droplet dynamics.

This article discusses the effects of nanoparticles on liquid crystal properties.

Study reveals methods to improve YIG film crystallization for better tech applications.