Latest Articles for Nanotechnology

Research sheds light on the complex stability of dodecagonal quasicrystals using hard sphere models.

Research on germanium quantum wells enhances quantum information storage without nuclear spin interference.

Research reveals new insights into Landau levels using strained silicon photonic crystals.

Edge states reveal unique behaviors in quantum spin Hall materials for future technologies.

New approach to multi-mode lasing with plasmonic nanoparticle arrays enhances light emission.

Study on how thin films of MnNiF react to strain and their magnetic properties.

Exploring how interfaces affect the electrical properties of two-dimensional materials.

New findings on antiferromagnetic materials and their potential in technology.

New developments in a-SiC enhance photonic device integration and performance.

Researchers modify exciton behavior in quantum wells using metallic and graphene layers.

Exploring the impact of spin-orbit coupling on material properties and behaviors.

Research reveals the properties and potential of borophene nanoscrolls for future applications.

Exploring the unique properties of europium palladium thin films and their applications.

Researchers propose a novel way to stabilize twisted bilayer graphene properties using chiral optical cavities.

Research reveals how light influences molecules close to metal surfaces.

Research uncovers local distortions in layered materials affecting their properties.

This article examines how magnetic fields influence electron behavior in rhombohedral multilayer graphene.

Research on semiconductor-superconductor nanowires offers advances for quantum technology.

Exploring the behavior of single metal atoms on boron-doped diamond surfaces.

A study reveals key findings on crystal nucleation in colloidal systems.

New methods align particles for clearer imaging of molecular structures.

Research highlights unique behaviors in graphene and WSe combinations.

Nanomagnets are key to enhancing spin qubit performance in quantum computing.

Exploring how classical and quantum mechanics interact in micellar solutions.

Astroid clocking allows precise manipulation of magnetic materials for computing applications.

This article explores the properties and potential of switchback DNA in nanotechnology.

Investigating how twist angles in tBL MoS₂ affect its structure and electronic properties.

MoS nanostructures alter their properties with temperature, impacting technology applications.

Researchers are enhancing quantum emitters in silicon for quantum computing and communication.

A look at extreme positive magnetoresistance and its significance in materials science.

Discover how defects impact diamond's thermal conductivity and its applications.

A look at how quantum geometry influences capacitance in insulators.

This study examines light from dipole emitters near nanoparticles.

Research explores ferroelectric materials' impact on magnetic properties in spintronics.

Examining heat exchange between tiny particles and the role of cavities.

Scientists study Kitaev chains in quantum dots for future tech.

This study examines how thermodynamics interacts with charge flow in quantum dots.

Research reveals how light influences magnetization in two-dimensional electron gases.

Research on NbS and MoSe/WSe materials offers new electronic properties.

Exploring the unique properties and applications of CuInP S in technology.