Issue 15, 2024

Far-field, near-field and photothermal response of plasmonic twinned magnesium nanostructures

Abstract

Magnesium nanoparticles offer an alternative plasmonic platform capable of resonances across the ultraviolet, visible and near-infrared. Crystalline magnesium nanoparticles display twinning on the (10[1 with combining macron]1), (10[1 with combining macron]2), (10[1 with combining macron]3), and (11[2 with combining macron]1) planes leading to concave folded shapes named tents, chairs, tacos, and kites, respectively. We use the Wulff-based Crystal Creator tool to expand the range of Mg crystal shapes with twinning over the known Mg twin planes, i.e., (10[1 with combining macron]x), x = 1, 2, 3 and (11[2 with combining macron]y), y = 1, 2, 3, 4, and study the effects of relative facet expression on the resulting shapes. These shapes include both concave and convex structures, some of which have been experimentally observed. The resonant modes, far-field, and near-field optical responses of these unusual plasmonic shapes as well as their photothermal behaviour are reported, revealing the effects of folding angle and in-filling of the concave region. Significant differences exist between shapes, in particular regarding the maximum and average electric field enhancement. A maximum field enhancement (|E|/|E0|) of 184, comparable to that calculated for Au and Ag nanoparticles, was found at the tips of the (11[2 with combining macron]4) kite. The presence of a 5 nm MgO shell is found to decrease the near-field enhancement by 67% to 90% depending on the shape, while it can increase the plasmon-induced temperature rise by up to 42%. Tip rounding on the otherwise sharp nanoparticle corners also significantly affects the maximum field enhancement. These results provide guidance for the design of enhancing and photothermal substrates for a variety of plasmonic applications across a wide spectral range.

Graphical abstract: Far-field, near-field and photothermal response of plasmonic twinned magnesium nanostructures

Supplementary files

Article information

Article type
Paper
Submitted
17 Nov 2023
Accepted
22 Jan 2024
First published
31 Jan 2024
This article is Open Access
Creative Commons BY license

Nanoscale, 2024,16, 7480-7492

Far-field, near-field and photothermal response of plasmonic twinned magnesium nanostructures

C. Boukouvala, C. A. West, A. Ten, E. Hopper, Q. M. Ramasse, J. S. Biggins and E. Ringe, Nanoscale, 2024, 16, 7480 DOI: 10.1039/D3NR05848D

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