The 63rd JSAP Spring Meeting, 2016

Presentation information

Oral presentation

3 Optics and Photonics » 3.12 Nanoscale optical science and near-field optics

[19p-S622-1~16] 3.12 Nanoscale optical science and near-field optics

Sat. Mar 19, 2016 2:00 PM - 6:15 PM S622 (S6)

Kenji Imakita(Kobe Univ.), Itsuki Banno(Univ. of Yamanashi)

4:30 PM - 4:45 PM

[19p-S622-10] Fabrication and plasmon sensing of metal nanocups by the difference of interfacial energy at dielectric/metal interface

Toshinao Tatsuno1, Takayuki Okamoto2, Tomotarou Ezaki1, Toshihiro Isobe1, Akira Nakajima1, Sachiko Matsushita1 (1.Tokyo Tech, 2.RIKEN)

Keywords:plasmon

Due to its high sensitivity to changes in the environmental dielectric constant, localized surface plasmon resonance (LSPR) is utilized for various sensing materials. However, because of this high sensitivity, it is difficult to detect a specific substance among mixed materials. Here, we enhanced the size selectivity using a metal nanostructure. By preparing a cup-like metal nanostructure that is the same size as a virus, this cup-like structure may be able to capture a virus, and thus the LSPR characteristics would change. This phenomenon would not occur for larger materials, such as animal cells, i.e., this cup-like structure may have selectivity for material size. In this paper, we fabricated metal nanocups out of two-dimensional colloidal crystals by exploiting the difference of interfacial energy at a dielectric/metal interface. The size selectivity and plasmon characteristics of the fabricated metal nanocups were investigated with model viruses, i.e., virus-like polystyrene (PSt) nanoparticles with almost the same dielectric constant and size as a virus. As a result, the transmission spectra show a 20-nm red shift in the visible light range before and after adsorption of the model virus. Field emission scanning electron microscopy (FE-SEM), optical microscope, UV-Vis spectrometry and contact angle measurement results are also discussed.