Latest Articles for Nanotechnology

Researchers use plant extracts to create valuable nanoparticles for various applications.

Exploring the creation and significance of NiBi nanorods and nanowires in material science.

Molecular communication opens new ways to transmit information using tiny molecules.

Research highlights the promise of SnV centers for quantum computing.

New machine learning approach enhances analysis of metal nanocluster structures.

Researchers explore new interactions between dark and bright modes in photonic structures.

Research highlights effective growth of (In,Ga)N shells for light-emitting applications.

Research focuses on optimizing aluminum oxide layers for better superconducting junctions.

New methods improve the accuracy of nanodevices in medical applications.

A new method improves calculations of Van der Waals interactions in materials.

Examining the role of surface dynamics in Plasma-Enhanced Atomic Layer Deposition.

Layer stacking shapes material strength, flexibility, and interactions with light.

Research on MoS transistors shows promise for quantum computing with spin-valley locking.

This article examines how size and shape affect the Seebeck coefficient in silicon nanostructures.

New tools improve understanding of ion channel function and behavior.

Examining the role of disorder in enhancing metasurface performance.

Study reveals how AC fields and reactions shape particle behavior in electrolytes.

Researchers develop magnonic cavities, promising new applications in information technology.

Research explores unique magnetic behaviors of vacancy-ordered antifluorites KReC, KOsC, and KIrC.

Study of transition metal dichalcogenides and their unique stacking configurations.

Research reveals metal-insulator transitions in TMDCs, shedding light on unique electronic properties.

This article discusses the unique shear viscosity behavior in graphene compared to traditional fluids.

Researchers investigate electron glass states and polar nanoregions in materials like KTaO.

New method offers real-time tracking of nanoparticles for improved product quality.

Exploring the role of ionic liquids in creating effective metal nanoparticles.

New techniques enhance light interactions with excitons in two-dimensional materials.

Exploring quantum interference effects in unique materials with pseudospin-1 fermions.

Examining how atom movement affects thin films and nanostructures.

Study reveals the complexities of gas flow at nanoscale levels.

Researchers explore ways to control skyrmions for advanced technology applications.

Research reveals methods to manipulate magnetic properties using moiré patterns.

Research expands on polarons, highlighting spin-orbital bipolarons and their impact on materials.

Research reveals atomic-level issues affecting qubit performance in silicon-germanium materials.

Research reveals how NV centers track domain wall dynamics in ferromagnetic materials.

Research unveils how magnetic nanoparticles affect human liver cells.

Researchers study noble gas clusters trapped between graphene layers for unique insights.

Research sheds light on materials' interaction with light and electrons.

Study reveals how surface shape influences atom movement in nanoporous gold.

Research explores how thin films can reduce Casimir forces in nanotechnology.

Study reveals new properties of transition metal dichalcogenides through moiré patterns.