Latest Articles for Nanotechnology

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.

This study examines how strain influences the properties of monolayer ZnO.

Discover the latest in DNA and RNA simulation technology and its applications.

Lattice DFT enhances understanding of complex electronic systems and interactions.

New techniques improve energy transfer study in antiferromagnetic materials.

Rhombohedral trilayer graphene exhibits unique metallic ferromagnetism influenced by orbital moments.

Study of circular motion in small particles reveals important scientific insights.

Exploring the unique properties of MATBG and correlated insulating states under magnetic fields.

This research examines quantum entropies in topological states of BiSe nanowires.

Exploring how disorder affects graphene's electronic properties and quasiparticle dynamics.

Explore the effects of disorder and temperature on bilayer graphene's properties.

Exploring the fascinating interactions of plasmons in graphene and their potential applications.

Research reveals unique properties in helical twisted trilayer graphene with potential for advanced electronics.

Research on LK-99 indicates potential for room-temperature superconductivity through unique orbital interactions.

Examining unique properties and potential applications of quartic dispersion materials.

Research explores electron-phonon interactions in two-dimensional materials under photoexcitation.

A novel approach to render complex DNA structures clearly and efficiently.

Researchers create a new nickelate with distinct electrical characteristics through oxygen manipulation.

Discover how excitons influence the future of electronic and optical devices.

Researchers investigate new hydrides for high-temperature superconductivity.