Facile synthesis of gold nanostars over a wide size range and their excellent surface enhanced Raman scattering and fluorescence quenching properties

Surface enhanced Raman scattering (SERS) is an excellent technique for detecting the trace concentration of targets. However, SERS based detection of fluorescent targets is tricky as the fluorescence signal can severely interfere with the SERS signal upon resonance excitation. This can limit the trace detection capability of SERS. Herein, the authors demonstrate that Au nanostars (NSs) are excellent for fluorescence quenching and trace detection by SERS. The NS based SERS substrate was used to measure the R6G concentrations as low as 10 pM upon laser excitation that are in resonance with the fluorescence absorption. The authors used a simple seed-mediated and surfactant assisted method to synthesize AuNSs in a wide size range. The size of the NSs can be tuned from 55 nm to about 1 mu m simply by varying the seed to HAuCl4 ratio in the growth solution. (C) 2017 American Vacuum Society.