Latest Articles for Nanotechnology

Exploring heat conduction models and the implications of the Guyer-Krumhansl equation.

Examining how shape affects the movement of particles in unique fluid environments.

New insights into magnetic topological insulators may reshape electronics and spintronics.

This article discusses forming crystal structures using tetravalent patchy particles.

Research explores electron behavior changes in stacked 2D materials at low temperatures.

Exploring how protein corona affects drug delivery and protein detection.

Learn about laser-induced periodic surface structures and their practical applications.

Researchers examine how light changes behavior in atomic systems during phase transitions.

This article explains how a ratchet potential can reset particle movement in a liquid.

Study reveals how driving protocols impact Majorana modes for quantum computing.

Researchers investigate exciton condensates in double-bilayer graphene under varying conditions.

Study reveals insights on cesium lead bromide crystallization and its effects on device performance.

Research unveils unique phonon states in diverse carbon structures.

This article discusses how solvent choice affects block copolymer phase separation.

Research sheds light on defects in cesium lead bromide for solar cell efficiency.

Discover the potential of moire materials and their unique electronic states.

Research reveals the significance of phase changes in Rhenium disulfide for advanced applications.

CTTBG shows unique electronic properties due to its stacking and twisting.

This article discusses fluid behavior in narrow spaces between angled walls.

This article examines how rough surfaces affect phonon behavior in graphene.

Exploring how strain and lattice relaxation affect twisted bilayer graphene's electronic behavior.

Exploring the unique properties and applications of WTe semimetal under magnetic fields.

Examining how quantum mechanics affects silicon carbide properties and applications.

Study reveals how tiny mechanical devices affect electron behavior.

Examining how self-heating impacts performance in advanced electronic devices.

Discover how temperature differences allow tiny objects to move on their own.

Researchers improve gold's conductivity by embedding silver nanoparticles, revealing new electrical behaviors.

This article examines magnetization and nutation in nanomagnets affected by surface anisotropy.

Research reveals how tumbling enhances the movement of chiral particles in liquids.

New techniques enhance our ability to study superlattices and their electronic properties.

Exploring the unique properties and uses of hexagonal materials in technology.

A look at Kondo screening and its effects in molecules with unpaired electrons.

New methods enhance the performance of nanomechanical sensors through thermal modeling and Kalman filtering.

This study examines how electric fields affect Landau levels in graphene ribbons.

Graphullerene shows potential for groundbreaking applications in electronics and optics.

A mathematical approach improves understanding of material properties at the atomic level.

This article discusses Kondo and Quantum Zeno effects in monitored quantum dots.

This article examines how stacking patterns affect the properties of nitride MXenes.

Researchers study twisted multilayer MoTe for its unique electron properties and effects.

A novel approach for efficient simulation of quasi-2D Coulomb systems is introduced.