Latest Articles for Nanotechnology

Study reveals complex behavior of chiral structures in confined liquid crystals.

Explore how quantum torque affects non-reciprocal materials in varying thermal states.

Hopf semimetals offer groundbreaking properties for materials science and technology.

This study explores charge carrier behavior in WSe and GaAs for advanced devices.

New system enhances data collection for studying proteins and viruses.

New methods reduce data collection time and minimize sample damage.

Investigating how temperature affects antiferromagnetic membranes for future technology.

Discover the potential of core-shell InAlN nanorods for advanced electronic applications.

Accurate placement of quantum dots is crucial for advanced light technologies.

Research reveals complex behaviors affecting superconductivity in twisted bilayer graphene.

Exploring how grain size influences the mechanical properties of polycrystalline diamonds.

Quantum dots show promise in technology with focus on fine structure splitting.

Exploring the unique properties and applications of 2D materials in various fields.

Investigating unique properties of kagome superconductors and their applications.

Study highlights effects of Te vacancies on unique electrical behaviors.

This article explores the behavior of LSMO and YBCO in superlattices under various conditions.

A look into optical levitation and its potential through nonlinear feedback forces.

Examining charge-density waves and their implications in transition metal dichalcogenides.

Examining how surface anisotropy affects spin wave behavior in thin magnetic films.

Researchers are finding ways to control spins in magnetic nanomaterials for better data storage.

Study reveals key interactions between alkali atoms and various materials.

Exploring the behavior of surface plasmon-polaritons in graphene with gain and loss.

Study reveals how voltage and defects affect trilayer graphene's electronic states.

Research on WTe₂ reveals its potential for advanced electronic applications.

Gatemon qubits show promise in enhancing quantum computing through unique materials and structures.

Research on metasurfaces enhances light control for efficient displays and lighting.

Research reveals how doping changes grain boundaries in ceria-zirconia materials.

Research reveals new methods to study ferromagnetic and antiferromagnetic materials.

Researchers improve models to understand unique magnetic properties of nanocomposites.

A new cavity approach allows open access while achieving strong coupling with molecules.

Researchers propose a new way to measure corner charges in advanced materials.

Study analyzes how NePCM melts under different conditions and its implications for energy storage.

Research reveals WSe2's behavior under magnetic fields, highlighting its electronic properties.

Examining how ions behave in solutions and their impact across various fields.

Doped TMDs show potential for magnetic semiconductor applications in spintronics.

Research on dendrimers enhances energy capture and transfer from sunlight.

Researchers study how surface charges affect chemical reactions in nanoparticles using advanced techniques.

Exploring how hydrogen affects the properties of β-MnO in batteries and catalysts.

Exploring the unique properties and potential of twisted bilayer graphene.

Exploring how 2D materials can improve silicon solar cell performance.