Menü

Publikationsliste

Authors Gupta, V. ; Probst, P. T. ; Goßler, F. ; Steiner, A. M. ; Schubert, J. ; Brasse, Y. ; König, T. ; Fery, A.
Title Mechanotunable Surface Lattice Resonances in the Visible Optical Range by Soft Lithography Templates and Directed Self-Assembly
Date 21.08.2019
Number 57021
Abstract We demonstrate a novel colloidal self-assembly approach toward obtaining mechanically tunable, cost-efficient, and low-loss plasmonic nanostructures that show pronounced optical anisotropy upon mechanical deformation. Soft lithography and template-assisted colloidal self-assembly are used to fabricate a stretchable periodic square lattice of gold nanoparticles on macroscopic areas. We stress the impact of particle size distribution on the resulting optical properties. To this end, lattices of narrowly distributed particles (~2% standard deviation in diameter) are compared with those composed of polydisperse ones (~14% standard deviation). The enhanced particle quality sharpens the collective surface lattice resonances by 40% to achieve a full width at half-maximum as low as 16 nm. This high optical quality approaches the theoretical limit for this system, as revealed by electromagnetic simulations. One hundred stretching cycles demonstrate a reversible transformation from a square to a rectangular lattice, accompanied by polarization-dependent optical properties. On the basis of these findings we envisage the potential applications as strain sensors and mechanically tunable filters.
Publisher ACS Applied Materials & Interfaces
Wikidata
Citation ACS Applied Materials & Interfaces 11 (2019) 28189-21196
DOI https://doi.org/10.1021/ACSAMI.9B08871
Tags

Back to list