Latest Articles for Nanotechnology

A look at Casimir friction between atoms and graphene, exploring energy and motion.

Research on spin waves in unique magnetic shapes offers new tech possibilities.

Study reveals weak radiation induces efficient decay in helium nanodroplets.

Timepix3 enhances electron microscopy for detailed structural analysis.

Research on nanowires reveals exciting potential for future technologies.

Discover how microplasma systems enhance material studies in real-time.

Dirac materials show promise for advanced electronics and quantum computing applications.

New techniques create band gaps in exciton-polariton systems using slab waveguides.

Learn how electrowetting enables manipulation of droplets on surfaces.

Research reveals methods to improve thermal stability in nanocrystalline alloys.

Impurities in diamonds create unique properties essential for various technologies.

Explore the uniqueness theorem and its role in electromagnetic problems.

This article examines the behavior of plasmons in layered materials like graphene.

Exploring cobalt's impact on niobium trisulfide's magnetic behavior.

Scientists study how light alters the conductivity of 2-MoTe material.

Combining structural and dynamic data reveals insights into molecular behavior.

Our study reveals unexpected persistence of electronic properties in SnTe at higher temperatures.

Research reveals unique thermoelectric features in thin films of Cd3As2.

Exploring the significance of flat bands in electron systems.

New insights into layered materials promise advancements in energy storage and memory technology.

Study reveals interaction of electron and phonon behavior in antimony with light pulses.

New insights into the behavior of SrTi₁-xVxO₃ through doping and electron interactions.

Research highlights phosphorus donors in silicon to enhance quantum operations.

Researchers study how electron beams interact with spherical nanoparticles for optical applications.

Research reveals new spin-to-charge conversion methods in graphene and MoTe at low temperatures.

Research reveals exciting properties of bulk alternating twisted graphite.

Research reveals insights into exciton behavior in two-dimensional materials under light pulses.

Researchers explore ferrovalley materials for future electronic advancements.

Study analyzes how strain and adsorbates affect polarization in ferroelectric materials.

Research reveals how particles organize themselves using vibrational forces in fluids.

Research on EuTiBi reveals new properties in magnetic topological materials.

A look at how strain affects bilayer graphene's unique electronic features.

Learn how recycling DNA components can benefit science and reduce waste.

This material exhibits unique properties that may transform technology.

Examining how mechanical strain and magnetic fields affect carbon-based materials.

New techniques enhance atomic simulations for better material predictions.

Exploring the properties of BiP triphosphide for electronic devices.

Exploring the complexities of Casimir forces in modern technology.

Research reveals spontaneous voltage peaks in niobium channels under specific conditions.

This study investigates exciton behavior in semiconductor nanocrystals within optical cavities.