2020
DOI: 10.3390/app10041301
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Self-Organized Conductive Gratings of Au Nanostripe Dimers Enable Tunable Plasmonic Activity

Abstract: Plasmonic metasurfaces based on quasi-one-dimensional (1D) nanostripe arrays are homogeneously prepared over large-area substrates (cm 2 ), exploiting a novel self-organized nanofabrication method. Glass templates are nanopatterned by ion beam-induced anisotropic nanoscale wrinkling, enabling the maskless confinement of quasi-1D arrays of out-of-plane tilted gold nanostripes, behaving as transparent wire-grid polarizer nanoelectrodes. These templates enable the dichroic excitation of localized surface plasmon … Show more

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“…Recently, a variety of new types of plasmon nanoantennas such as nanocube, nanorod, nanostar, bowtie nanoantenna and honeycomb nanoantenna with resonance wavelength in the range from visible to near-infrared spectroscopy have been designed to improve electromagnetic field [22][23][24][25], which can widely extend the applicability in surface science, photothermal conversion, optoelectronic device and biosensing [26][27][28][29][30][31]. In the above plasmonic structure, the novel bowtie nanoantenna, composed of two metallic triangular plates, in particular is one of the most promising candidates for surface-enhanced photoluminescence spectroscopy since it can simultaneously enhance and confine electric field at sharp tips and tiny gaps.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, a variety of new types of plasmon nanoantennas such as nanocube, nanorod, nanostar, bowtie nanoantenna and honeycomb nanoantenna with resonance wavelength in the range from visible to near-infrared spectroscopy have been designed to improve electromagnetic field [22][23][24][25], which can widely extend the applicability in surface science, photothermal conversion, optoelectronic device and biosensing [26][27][28][29][30][31]. In the above plasmonic structure, the novel bowtie nanoantenna, composed of two metallic triangular plates, in particular is one of the most promising candidates for surface-enhanced photoluminescence spectroscopy since it can simultaneously enhance and confine electric field at sharp tips and tiny gaps.…”
Section: Introductionmentioning
confidence: 99%