posted on 2020-12-18, 13:43authored byRunfang Fu, Daniel E. Gómez, Qianqian Shi, Lim Wei Yap, Quanxia Lyu, Kaixuan Wang, Zijun Yong, Wenlong Cheng
In parallel to the burgeoning field
of soft electronics, soft plasmonics
focuses on the design and fabrication of plasmonic structures supported
on elastomers and to understand how their properties respond to mechanical
deformations. Here, we report on a partial ligand-stripping strategy
to fabricate elastomer-supported gold nanobipyramid (NBP) plasmene
nanosheets. Unlike spherelike building blocks, NBP-building blocks
display complex orientation-dependent plasmonic responses to external
strains. By collecting polarized plasmonic resonance spectra in conjunction
with electrostatic eigenmode modeling, we reveal simultaneous changes
in interparticle spacing and spatial orientations of NBP building
blocks under mechanical strains. Such changes are directly related
to initial NBP packing orders. Further analysis of strain sensitivities
for various NBP plasmenes indicated that plasmonic spectra of ∼45°
oriented samples are mostly susceptible to strain at acute polarized
angles. The results presented may enable novel applications in future
soft optoelectronic devices in sensing, encryption, and data storage.