Latest Articles for Nanotechnology

Recent findings challenge existing theories on electron effective mass and spin polarization.

Research on magnetic topological insulators reveals unique electron behaviors in Hall conductance.

Chiral molecules influence charge transport, affecting electronics and materials science.

Examining how disorder changes high-harmonic generation in unique carbon structures.

A look into how spin-phonon interactions impact unique material properties.

Discover the significance and applications of fullerene carbon molecules.

Research introduces machine learning for ion concentration predictions in nanochannels.

Exploring the structural behavior and potential applications of 2D SrTiO₃.

Small ionic swimmers could change healthcare and robotics through precise movement.

A study on how dimers create complex structures and affect material properties.

CsPbBr nanocrystals show promise in lighting, solar energy, and more.

Research into SHNOs offers promising advancements for computing and communication technologies.

Combining traditional tech with new methods for efficient probabilistic computing.

Research reveals how insulating layers can boost NV centers' sensing abilities.

Polar metals reveal interesting electronic behaviors under magnetic fields.

New hybrid systems using nanoantennas enhance light emission from two-dimensional semiconductors.

Research highlights the potential of neem-derived carbon quantum dots in medicine.

Researchers investigate lutetium hydride's superconductive potential near room temperature.

Colloidal diamonds show promise for light control but are hard to produce.

Research reveals how copper influences the magnetic properties of SmCo magnets.

Examining how curvature affects crystal behavior and properties.

A study on lead titanate films and their domain structures.

Study shows how colloidal particles influence chiral liquid crystals' alignment and properties.

This study investigates carbon nanobelts as a method to remove heavy metals from contaminated water.

A look at PNIPAM's unique properties and its uses in various fields.

New methods may enable topological superconductivity without strong magnetic fields.

Near-field optics reveals new possibilities for sensors, imaging, and communication technologies.

Research reveals unique low-energy charge excitations in cuprate superconductors.

Research explores hafnia's unique properties for improving electronic memory applications.

This study examines how charged particles behave around charged rings.

Researchers create single-crystalline lutetium hydride films with potential for superconductivity.

Research highlights the role of strain and magnetic fields in honeycomb lattices.

New methods for creating high-quality niobium films could enhance quantum computing.

New photonic crystals improve light behavior, opening doors to innovative technologies.

Research reveals new insights into one-dimensional topological superconductivity using van der Waals heterostructures.

Examining how electric fields and temperature affect helical molecule behavior.

Examining how polyelectrolyte solutions interact with charged surfaces in confined spaces.

This material shows unique electronic and magnetic properties due to its structure.

Exploring the unique interactions of graphene through the Casimir effect.

Exploring how molecular motors function and their implications for technology and medicine.