Latest Articles for Nanotechnology

Exploring the impact of defects and polarons on lithium tantalate's properties.

Researchers investigate the surprising magnetic properties of infinite-layer nickelates.

Barium titanate nanocrystals offer unique properties for advanced electronic applications.

Examining how excitons impact DNA's energy dynamics and genetic stability.

Research highlights the potential of doped semiconductors in enhancing nonlinear optical responses.

A look into electron interactions in flat-band materials and their transport properties.

Exploring the potential of high-harmonic generation for advanced imaging and materials research.

Study reveals how magnetization direction affects the properties of Co-based shandite CoSnS.

A look into charge transfer processes on surfaces using advanced methods.

Research enhances design of GNRs for efficient electronic circuits.

Carbon nanotube films control light emission for sensors and electronics.

Recent findings reveal improved energy transfer methods using light and nanoparticles.

A look at the excitonic effects and optical behavior of monolayer WSe.

Exploring the fascinating behavior of Casimir forces between closely spaced plates.

A look at the Casimir effect and its role in quantum physics.

Fluorescent nanosensors paired with SOFI revolutionize cellular analysis.

Investigating the role of chirality and DMI in magnetic materials' behavior.

This article explores cotunneling effects in spintronic junctions and their impact on electron transport.

Research reveals how strain alters electron transport in graphene structures.

This project investigates how different solutions affect single photon emitters from hBN.

Moire materials reveal unique quantum properties, expanding the horizons of modern physics.

A study on how disorder affects superconductivity in SrRuO3.

This study examines how phosphorus atoms affect electron behavior in silicon for electronic devices.

Researchers enhance stability of quantum systems using three-dot Kitaev chains.

A look into the processes and significance of CNT forests.

Researchers achieve better control over exciton behavior in quantum dots.

A look into energy, work, and entropy in open quantum systems.

A study on the impact of structured assembly in synthetic and biological processes.

Research reveals insights into surface states affected by spin-orbit coupling.

Exploring the superconducting properties of twisted graphene structures and their applications.

Carbon in hBN creates stable defects for single photon emission, aiding quantum tech.

This article examines how fabrication techniques impact superconducting device performance.

Research on graphene and hBN offers potential for ultra-sensitive sensors.

Research improves niobium cavities, enhancing quantum computing performance.

This article examines how particle shapes influence their assembly behavior.

New sensors provide precise pressure measurement in microfluidic systems.

Explore how energy is exchanged in small particles within fluids.

Insights into tungsten atom movement in layered materials and its implications.

This article compares Kubo and QFT models for graphene's electrical conductivity.

Examining the necessity of hydrogen in superconducting nickelates and its implications.