Latest Articles for Nanotechnology

Exploring how electric fields affect edge states in graphene ribbons.

Research on Josephson junctions reveals new possibilities in quantum device applications.

Research highlights inconsistencies in interpreting small-angle scattering data among researchers.

Researchers develop a nanothermometer for accurate temperature readings at tiny scales.

Discover the unique properties and applications of nanoparticles in chemical reactions.

Virus-like particles can control pH differences, impacting medicine and technology.

A study on how polarization affects quantum emitters and their applications.

Study reveals how helium ions affect magnetic domain wall movement.

Research shows potential improvements in magnetic devices using helium ion irradiation.

Investigating the behavior of semi-Dirac materials in quantum transport and noise.

Examining the complex processes of heat transfer at the molecular level.

Research reveals interactions of magnetism and structure in manganese phosphorus selenide.

A model studying stability and shape of charged liquid drops in similar fluids.

Explore the unique transport properties and phenomena of ZrTe.

Discover the unique properties and potential of monolayer TMDs in modern technology.

New insights into superconductivity with a promising two-dimensional material.

Research reveals how polymer brushes adapt when interacting with liquid droplets and vapor.

Investigating how shear flow affects the shape of flexible sheets.

Methods for size separation enhance material quality and performance.

Researchers discover efficient heat transfer across vacuum gaps using piezoelectric materials.

Explore how MnBi Te's structure affects its magnetic and electric behaviors.

This article discusses Surface Chemical Reaction Networks and their importance in molecular interactions.

This study explores the unique behaviors of InSb nanoflag Josephson junctions.

This study highlights the manipulation of electron spin in graphene junctions using magnetic fields.

Examining unique quantum oscillations in graphene structures under magnetic fields.

Researchers advance knowledge of bismuth nanocrystals and their hinge-states for electronics.

Research reveals insights into vanadium dioxide's transition from insulator to metal.

Research improves control over quantum wells with independent electric contacts.

Me-graphene shows promise for future electronic applications with unique mechanical properties.

New method enhances understanding of platinum-rhodium nanoparticles for improved catalytic efficiency.

Research reveals fascinating properties of Dirac exceptional points in non-Hermitian systems.

Investigating the unique properties and applications of twisted bilayer graphene.

Research explores interactions between sound and magnetic properties in layered material CrCl3.

A look at silicene, germanene, and stanene and their intriguing properties.

A novel approach to measure exciton properties in two-dimensional materials.

Researchers improve measurements of ruthenium's fluorescence yields and Coster-Kronig factors.

Research reveals new electronic properties in twisted bilayer MoS influenced by atomic movements.

This study focuses on particle behavior in confined spaces, relevant for technology and biology.

This article discusses the behavior of excitons in MoS/WSe layered materials.

A new method enhances understanding and applications of molecular magnets.