Near- and Far-Field Optical Properties of Dipole-Multipole Plasmonic Coupled Building Blocks

Abstract: The plasmonic hybridization in the complex nanostructure innovates multiple fields, such as chemistry, physics, materials science, and biology. In this article, we systematically studied the near- and far-field optical properties of building blocks of coupled dipoles or coupled dipoles and multipoles or a multipole in a coupled plasmonic system through numerical simulations. To be specific, the far-field spectrum, near-field phase changes, and angular radiation patterns of plasmonic hybridized structures were … Show more

“…36 Recently, some theoretical studies have shown that plasmonic hybridization between a dipolar mode and a multipolar mode showed more dramatic optical response in terms of near- and far-field than that among dipolar modes, which may lead to the improvement of photothermal applications. 37…”

“…36 Recently, some theoretical studies have shown that plasmonic hybridization between a dipolar mode and a multipolar mode showed more dramatic optical response in terms of near-and far-field than that among dipolar modes, which may lead to the improvement of photothermal applications. 37 In this study, we investigated the dipole-multipole (D-M) plasmonic coupling between a TiN NP's dipolar mode (B750 nm) and an Au NR's multipolar mode (B750 nm), which was compared to the dipole-dipole (D-D) plasmonic coupling among TiN NPs' dipolar modes. First, we fabricated Au NR/TiN NP/PVDF nanofilms and neat TiN NP/PVDF nanofilms, which contain D-M coupled Au NR/TiN NP nanoclusters and D-D coupled TiN NP nanoclusters, respectively.…”

Dipole–multipole plasmonic coupling between gold nanorods and titanium nitride nanoparticles for enhanced photothermal conversion

“…36 Recently, some theoretical studies have shown that plasmonic hybridization between a dipolar mode and a multipolar mode showed more dramatic optical response in terms of near- and far-field than that among dipolar modes, which may lead to the improvement of photothermal applications. 37…”

“…36 Recently, some theoretical studies have shown that plasmonic hybridization between a dipolar mode and a multipolar mode showed more dramatic optical response in terms of near-and far-field than that among dipolar modes, which may lead to the improvement of photothermal applications. 37 In this study, we investigated the dipole-multipole (D-M) plasmonic coupling between a TiN NP's dipolar mode (B750 nm) and an Au NR's multipolar mode (B750 nm), which was compared to the dipole-dipole (D-D) plasmonic coupling among TiN NPs' dipolar modes. First, we fabricated Au NR/TiN NP/PVDF nanofilms and neat TiN NP/PVDF nanofilms, which contain D-M coupled Au NR/TiN NP nanoclusters and D-D coupled TiN NP nanoclusters, respectively.…”

Dipole–multipole plasmonic coupling between gold nanorods and titanium nitride nanoparticles for enhanced photothermal conversion