Two-dimensional metal nanomaterials: synthesis, properties, and applications
As one unique group of two-dimensional (2D) nanomaterials, 2D metal nanomaterials have
drawn increasing attention owing to their intriguing physiochemical properties and broad …
drawn increasing attention owing to their intriguing physiochemical properties and broad …
Thin metal nanostructures: synthesis, properties and applications
Two-dimensional nanomaterials, especially graphene and single-or few-layer transition
metal dichalcogenide nanosheets, have attracted great research interest in recent years due …
metal dichalcogenide nanosheets, have attracted great research interest in recent years due …
Deep learning meets nanophotonics: a generalized accurate predictor for near fields and far fields of arbitrary 3D nanostructures
Deep artificial neural networks are powerful tools with many possible applications in
nanophotonics. Here, we demonstrate how a deep neural network can be used as a fast …
nanophotonics. Here, we demonstrate how a deep neural network can be used as a fast …
Light-induced symmetry breaking for enhancing second-harmonic generation from an ultrathin plasmonic nanocavity
Efficient frequency up-conversion of coherent light at the nanoscale is highly demanded for
a variety of modern photonic applications, but it remains challenging in nanophotonics …
a variety of modern photonic applications, but it remains challenging in nanophotonics …
Photoluminescence of gold nanorods: Purcell effect enhanced emission from hot carriers
We demonstrate, experimentally and theoretically, that the photon emission from gold
nanorods can be viewed as a Purcell effect enhanced radiative recombination of hot …
nanorods can be viewed as a Purcell effect enhanced radiative recombination of hot …
Lighting up silicon nanoparticles with Mie resonances
As one of the most important semiconductors, silicon has been used to fabricate electronic
devices, waveguides, detectors, solar cells, etc. However, the indirect bandgap and low …
devices, waveguides, detectors, solar cells, etc. However, the indirect bandgap and low …
How ultranarrow gap symmetries control plasmonic nanocavity modes: from cubes to spheres in the nanoparticle-on-mirror
Plasmonic nanocavities with sub-5-nm gaps between nanoparticles support multiple
resonances possessing ultra-high-field confinement and enhancements. Here we …
resonances possessing ultra-high-field confinement and enhancements. Here we …
Metal-substrate-mediated plasmon hybridization in a nanoparticle dimer for photoluminescence line-width shrinking and intensity enhancement
Metal-film-coupled nanoparticles with subnanometer particle–film gaps possess an
ultrasmall mode volume, responsible for a variety of intriguing phenomena in plasmonic …
ultrasmall mode volume, responsible for a variety of intriguing phenomena in plasmonic …
Extremely confined gap plasmon modes: when nonlocality matters
Historically, the field of plasmonics has been relying on the framework of classical
electrodynamics, with the local-response approximation of material response being applied …
electrodynamics, with the local-response approximation of material response being applied …
Continuous Phase Regulation of a Pd–Te Hexagonal Nanoplate Library
X Huang, B Xu, J Feng, S Hu, W Dou… - Journal of the …, 2023 - ACS Publications
Phase regulation of noble metal-based nanomaterials provides a promising strategy for
boosting the catalytic performance. However, realizing the continuous phase modulation in …
boosting the catalytic performance. However, realizing the continuous phase modulation in …