posted on 2018-10-30, 00:00authored byEunil Hahm, Myeong Geun Cha, Eun Ji Kang, Xuan-Hung Pham, Sang Hun Lee, Hyung-Mo Kim, Dong-Eun Kim, Yoon-Sik Lee, Dae-Hong Jeong, Bong-Hyun Jun
Surface-enhanced
Raman scattering (SERS) spectroscopy is attractive
in various detection analysis fields. However, the quantitative method
using SERS spectroscopy remains as an area to be developed. The key
issues in developing quantitative analysis methods by using SERS spectroscopy
are the fabrication of reliable SERS-active materials such as nanoparticle-based
structures and the acquisition of the SERS signal without any disturbance
that may change the SERS signal intensity and frequency. Here, the
fabrication of seamless multilayered core–shell nanoparticles
with an embedded Raman label compound as an internal standard (MLRLC dots) for quantitative SERS analysis is reported. The embedded
Raman label compound in the nanostructure provides a reference value
for calibrating the SERS signals. By using the MLRLC dots,
it is possible to gain target analyte signals of different concentrations
while retaining the Raman signal of the internal standard. The ML4‑BBT dots, containing 4-bromobenzenethiol (4-BBT) as
an internal standard, are successfully applied in the quantitative
analysis of 4-fluorobenzenethiol and thiram, a model pesticide. Additionally,
ratiometric analysis was proved practical through normalization of
the relative SERS intensity. The ratiometric strategy could be applied
to various SERS substrates for quantitative detection of a wide variety
of targets.