Latest Articles for Nanotechnology

Discover how wrinkles in graphene affect its properties and applications.

1T-TaS2 shifts between insulating and metallic states with electric pulses.

New insights into charge transfer behaviors in unique layered materials.

Exploring how packing density affects electrical conduction in quantum dot materials.

Scientists study micropillars to manipulate light-matter interactions and create polaritons.

DyTe's tellurium vacancies influence its electrical behavior and potential in electronics.

New methods improve light manipulation in nanostructures for better energy efficiency.

A look into the Quantum Hall Effect and its implications in graphene research.

Research on spin waves opens new paths in technology and materials science.

Research on generating vector beams using quantum dots opens new tech possibilities.

Study reveals how light can change material properties and symmetry.

Study reveals unique magnetic properties of two-dimensional material CrSBr near critical temperature.

Examining the structure and stability of lipid nanoparticles in COVID-19 vaccines.

Research reveals how active segments in polymers increase knot formation probability.

Investigating Majorana zero modes in quantum dot-superconductor systems for future technologies.

Investigating molecular nanomagnets for advancements in quantum computing and information processing.

This article examines how polar crystals affect electron flow in graphene.

Magnetic skyrmions could transform data storage and processing in electronics.

Exploring unique properties of Majorana bound states in superconducting materials.

Neutron Dark-Field Imaging offers insights into the structure of nanocellulose foams.

Study reveals impact of magnetization on spin-orbit interaction in nanomagnets.

Investigating interparticle interactions in two-dimensional materials and their influence on the valley Hall effect.

Twisted 2D materials hold promise for future technology advancements.

Research reveals the magnetic and electronic traits of Cs Co S for future tech.

New insights into spin relaxation can enhance quantum computing materials.

New findings on hematite enhance spintronics efficiency through spin-orbit torque.

Exploring the potential of graphene in spintronic devices.

Research reveals new states in SrCoO using strain techniques.

A new tool improves analysis and production of gold nanorods for various applications.

Research reveals how quantum wires interact with mechanical motion and Lorentz invariance.

Research reveals unique properties of edge states in honeycomb structures and high-fold fermions.

Researchers improve HgTe nanowires for future electronics and quantum technologies.

New insights on how electrical current affects MRAM performance.

Study reveals how charge carriers in graphene layers influence each other through Coulomb drag.

A look into the Casimir effect and its impact on physics.

A new method links excitons with mechanical systems, boosting quantum technology potential.

Examining the potential of the Kekulé Valence Bond Solid state in graphene.

Scientists study Majorana bound states using quantum dots for improved quantum computing.

Researchers enhance quantum registers for effective quantum communication.

Exploring the unique features of NbOCl monolayer in materials science.