Latest Articles for Nanotechnology

New methods improve measurement accuracy of twist angles in advanced materials.

Study of skyrmions reveals new possibilities for advanced computing technologies.

A look into how polarons affect lithium niobate's properties and applications.

Research explores the unique properties and charge ordering in 4Hb-TaS materials.

Study reveals how holes in WSe₂ can enhance quantum devices.

Exploring the connection between geometry and spin in electronic materials.

Research into Chern bands reveals complex behaviors influenced by electron interactions.

Research reveals how exciton dynamics enhance energy conversion in organic materials.

New deep learning model enhances understanding of PZO's thermal properties and phase transitions.

Researchers combine diamond and piezoelectric materials for better phonon control in quantum computing.

Research highlights safer methods using plant extracts for creating antibacterial nanoparticles.

Investigating how layer arrangement impacts the magnetic characteristics of LNMO and NNMO.

Examining nickel-vacancy centers and their impact on future technologies.

Research reveals how charged droplets can effectively remove particles from surfaces.

Exploring how twisting and electric fields affect t2BN's properties.

Research reveals new behaviors of bismuth that could transform electronics.

A new tool boosts the search for materials with flat electronic bands.

Examining excitons reveals new opportunities for improving organic semiconductors.

Research on twisted trilayer graphene reveals unique superconducting behaviors.

Researchers manipulate magnetization in GaMnN using electric fields for advanced electronics.

Research reveals how proteins can be influenced by THz waves for medical applications.

Research reveals how DNA link styles affect curvature and material properties.

NV centers provide insights into materials' properties through non-invasive measurements.

Exploring how excitons influence photocurrent in two-dimensional materials.

Research on 2DES reveals unique properties with applications in electronics and spintronics.

Researchers design hybrid materials that enhance electronics and energy applications.

Examining how conical shapes influence electron behavior in quantum rings.

Examining TMDCs' properties and their role in future electronic devices.

This article examines how electron behavior changes in thin metal films.

Study highlights how electric fields affect dipolar colloids and their clustering behavior.

New method improves precision and sensitivity in quantum sensors for magnetic signal measurement.

This article explores the superconducting diode effect and its implications in technology.

A look at rhombohedral graphene's fascinating superconductivity features and spin properties.

Exploring helium matter waves' impact on nanophotonic designs through h-BN holes.

Machine learning techniques improve predictions of crystal structures from electron diffraction patterns.

Researchers investigate how tiny materials handle friction and contamination.

This article explores topological edge states and their role in materials properties.

New method efficiently forecasts electronic behaviors in two-dimensional materials with superlattices.

Research reveals new structures in twisted bilayer-trilayer graphene with unique electronic properties.

New methods improve magnetic imaging at the nanoscale.