Controlling Subnanometer Gaps in Plasmonic Dimers Using Graphene
journal contribution
posted on 2013-11-13, 00:00 authored by Jan Mertens, Anna L. Eiden, Daniel O. Sigle, Fumin Huang, Antonio Lombardo, Zhipei Sun, Ravi S. Sundaram, Alan Colli, Christos Tserkezis, Javier Aizpurua, Silvia Milana, Andrea C. Ferrari, Jeremy J. BaumbergGraphene
is used as the thinnest possible spacer between gold nanoparticles
and a gold substrate. This creates a robust, repeatable, and stable
subnanometer gap for massive plasmonic field enhancements. White light
spectroscopy of single 80 nm gold nanoparticles reveals plasmonic
coupling between the particle and its image within the gold substrate.
While for a single graphene layer, spectral doublets from coupled
dimer modes are observed shifted into the near-infrared, these disappear
for increasing numbers of layers. These doublets arise from charger-transfer-sensitive
gap plasmons, allowing optical measurement to access out-of-plane
conductivity in such layered systems. Gating the graphene can thus
directly produce plasmon tuning.
