Latest Articles for Nanotechnology

A new method enhances understanding and applications of molecular magnets.

A look at the thermal properties of amorphous alumina in electronic applications.

Research on BaTiO and BiFeO multilayers reveals key factors for improved magnetoelectric performance.

Discover the future of THz detectors using graphene and black phosphorus.

Exploring the effects of structural disorder on metal halide perovskites and their applications.

Research on improving quality of PdCrO films by managing impurity phases.

Research reveals potential applications for controlling nonreciprocal transport in superconductors.

Research reveals fascinating electronic behaviors in twisted trilayer graphene structures.

Research focuses on improving heat-to-energy conversion using quantum-dot thermoelectric devices.

Research reveals potential of (Zn,Cr)Te for spintronic applications at near room temperature.

Research on self-assembly techniques leads to new photonic structures.

New insights on how twisted graphene improves electron transfer rates for energy applications.

New method allows manipulation of layered materials through light interactions.

Exploration of MAX phases reveals unique nano-twist structures and their impact on material properties.

Recent progress in electron spin resonance reveals new insights into atom-level magnetic properties.

This research reveals the impact of charge density waves on electronic properties in layered materials.

A cutting-edge approach reveals electrochemical processes at small scales.

Researchers investigate MoSe monolayers for advanced technology applications.

Examining the unique characteristics of the CuGaCr S magnet.

Research reveals unique electron behaviors in honeycomb lattice structures influenced by magnetism.

Exploring hyperfine interactions in carbon structures for technology applications.

Research on nanoparticles aims to improve drug delivery for challenging medications.

Exploring advanced corrections in electron gas models for improved energy calculations.

New methods improve the creation and use of plasmons in electronics and sensors.

Research reveals superconductivity and Majorana modes in WTe2, impacting quantum technology.

Researchers are uncovering new properties of 2D antiferromagnets for future technology.

Research reveals insights into nanoscale electron-light coupling using advanced microscopy techniques.

New modeling techniques enhance understanding of material properties through symmetry.

Exploring helium's effects on perovskite materials and their potential applications.

Exploring the potential of antiferromagnetic materials in future tech applications.

Investigating how doping alters the behavior of monolayer MoTe.

Investigating the photogalvanic effects in multi-Weyl semimetals reveals their potential for innovative applications.

Exploring the unique features and applications of nodal ring semimetals.

Research on FeGa alloy reveals new ways to harness the anomalous Nernst effect.

Recent findings on Chern bands reveal unique materials with potential technological applications.

Exploring current behavior in quantum dots and Majorana bound states.

Research explores controlling light emission using nanoantennas and rare earth ions.

Research proposes spin pumping to enhance the study of TBG's properties.

This study explores energy relaxation and growth of nano-sized particles.

This article examines valley splitting in silicon quantum dots and its implications for quantum computing.