Latest Articles for Nanotechnology

Study of how magnons behave in graphene junctions reveals new electronic properties.

This article explores the unique properties and applications of graphdiyne-based materials.

This study examines how size influences the magnetic behavior of cobalt oxide nanoparticles.

Examining total coloring strategies for fullerene nanodiscs and their properties.

New methods improve understanding of electric double layers in energy storage systems.

Researching orbital angular momentum's impact on advanced electronic devices.

Exploring the unique features and potential of one-dimensional topological superconductors.

Active particles change the strength and flexibility of colloidal gels.

A new model enhances our understanding of membrane behavior in living systems.

Research on NV centers reveals insights into their coherence properties for quantum technology.

Examining how water behaves differently in hydration and confined spaces.

Exploring the interplay between colloids and liquid crystals for new material possibilities.

Janus particles exhibit unique behaviors influenced by chemical gradients.

This article examines pair density modulation in thin flakes of FeTeSe superconductor.

Research highlights new methods to enhance supercurrent in planar Josephson junctions.

This study investigates how cobalt spins in quantum dots respond to light interactions.

This paper discusses the stability and behavior of skyrmioniums in chiral magnets.

Research explores manipulation of dark excitons in quantum dots for improved tech applications.

New method simulates how tungsten pillars react to compression, aiding material design.

Discover how DNA is shaping new technological applications across various fields.

New methods allow precise control of chiral edge states in the Quantum Hall effect.

Exploring photon blockade and its role in advanced optomechanical systems.

Research reveals key links between atom movements and electron behavior in CsSnBr.

AI integration transforms scanning probe microscopy for improved measurements at room temperature.

Research reveals unique behaviors in heterostructures formed from layered materials with different structures.

Research reveals how T-helper cells can become Tregs to control inflammation.

FePc materials showcase unique magnetic behaviors with potential electronic applications.

New imaging methods reveal fine details of biological structures without fluorescence.

Research reveals how synthetic ferrimagnets can influence electronics through new magnetic properties.

Rippled graphene holds potential for advanced electronic applications and energy efficiency.

Doping strontium ruthenate with chromium raises its Curie temperature, changing its properties.

Research reveals unique temperature-related magnetic changes in CoZnMn materials.

Research explores the potential of altermagnets with higher-order topological insulators.

Recent research reveals new magnon modes in skyrmion lattices, paving the way for advanced technologies.

Researchers manipulate electron spins in quantum dots to improve quantum computing technologies.

This article examines particle movement in confined systems and its implications.

This study focuses on developing models for topological insulator materials.

Researchers improve resonator efficiency with single-crystal silicon carbide, reducing energy loss.

Study reveals unique magnetic behaviors in chromium trihalides, impacting future technology.

New designs improve optical traps for manipulating tiny particles.