| dc.description.abstract | Misaligned edge-to-edge dimers are the common products during the preparation of Ag nanoprism dimers using
self-assembly method. However, in the self-assembly method, Ag nanoprisms are easily truncated because they are
easy to oxidize in an acidic environment. In this work, modeling a truncated Ag nanoprism on a misaligned edgeto-edge dimer provides a better understanding of the effects of the truncation and misalignment on localized
surface plasmon resonance (LSPR) of the dimer. The resonant wavelength and intensity of the dimer are flexibly
modulated by changing the misalignment length of the dimer. As the misalignment length increases, a stronger
peak at the shorter wavelength and a weaker one at the longer wavelength are observed. The resonant
wavelengths and intensities of the two peaks are also flexibly tuned by adjusting the truncated length of the Ag
nanoprism in the dimer. The results are numerically demonstrated based on the finite element method (FEM) and
show promising potential for nanoswitch, multi-channel tunable biosensor and other nanodevice applications. | en_US |
