Tunable optical features from self-organized rhodium nanostructures

Sathe, Bhaskar R.; Balan, Beena K.; Pillai, Vijayamohanan K.

doi:10.1063/1.3447927

Cited by 6 publications

(4 citation statements)

References 19 publications

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“…However, other factors have to be taken into consideration to obtain the most efficient NP concentration for an OA growth, such as the solvent, surfactant, and temperature, etc. [14][15][16][17] For example, too large an NP concentration results in the aggregation of the assembling NPs and, thus, is detrimental to the 1D OA growth of NRs.…”

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confidence: 99%

The evaluation of Coulombic interaction in the oriented-attachment growth of colloidal nanorods

Lin

et al. 2012

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confidence: 99%

The evaluation of Coulombic interaction in the oriented-attachment growth of colloidal nanorods

Lin

et al. 2012

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“…Experimentally, it was reported that the surface plasmon resonances in the UV region could be tuned by controlling the size and morphology of rhodium nanoparticles [20]. Tunable optical features at UV wavelengths were also addressed in self-organized rhodium nanostructures [21]. In theory, the UV plasmonic behavior and surface charge distribution of rhodium tetrahedra were studied, and the applications in surface-enhanced spectroscopies and photocatalysis were discussed [22].…”

Section: Introductionmentioning

confidence: 99%

Plasmonic characteristics of rhodium dual broken nanorings in UV–visible regime

et al. 2023

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This work reports on the plasmonic properties of a symmetry-breaking system consisting of rhodium dual broken nanorings, in the ultraviolet-visible regime. In the structure, two rhodium broken rings are located with a separation on the scale of nanometers. As the separation, the light polarization, and the relative orientation of the broken angles are respectively varied, the plasmonic scattering efficiency of the system is investigated, using the finite difference time domain method. Multiple plasmonic resonances are revealed, and the associated asymmetry-induced Fano-like lineshapes are fitted to a model that employs multiple Fano lineshape functions. The resonance wavelengths, the spectral widths, and the characteristic q values are determined from the best fit parameters, and the plasmonic characteristics of the system are quantitatively probed. The results in this work may be beneficial in designs of plasmonic devices that operates at ultraviolet-visible wavelengths.

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“…7 Similarly, such a slow evolution of Rh nanostructures under equilibrium conditions could be effected by the simple approach of galvanic exchange, offering a unique way to control the morphology by choosing a suitable redox couple and this approach has been applied successfully to achieve different shapes of various metals and their alloys. [8][9][10] This approach is particularly attractive for preparing nanostructures with wellcontrolled dimensions and moreover, due to their simplicity, cost effectiveness and high throughput.…”

Section: Introductionmentioning

confidence: 99%

Tunable optical features from self-organized rhodium nanostructures

Cited by 6 publications

References 19 publications

The evaluation of Coulombic interaction in the oriented-attachment growth of colloidal nanorods

The evaluation of Coulombic interaction in the oriented-attachment growth of colloidal nanorods

Plasmonic characteristics of rhodium dual broken nanorings in UV–visible regime

Capping induced morphology evolution of Rh nanostructures and their electrocatalytic studies

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