posted on 2018-05-01, 12:50authored byChih-Ping Yang, Sheng-Uei Fang, Kuang-Hsuan Yang, Hsiao-Chien Chen, Hui-Yen Tsai, Fu-Der Mai, Yu-Chuan Liu
Conventionally, reactions
in aqueous solutions are prepared using
deionized (DI) water, the properties of which are related to inert
“bulk water” comprising a tetrahedral hydrogen-bonded
network. In this work, we demonstrate the distinguished benefits of
using in situ plasmon-activated water (PAW) with reduced hydrogen
bonds instead of DI water in electrochemical reactions, which generally
are governed by diffusion and kinetic controls. Compared with DI water-based
systems, the diffusion coefficient and the electron-transfer rate
constant of K3Fe(CN)6 in PAW in situ can be
increased by ca. 35 and 15%, respectively. These advantages are responsible
for the improved performance of surface-enhanced Raman scattering
(SERS). On the basis of PAW in situ, the SERS enhancement of twofold
higher intensity of rhodamine 6G and the corresponding low relative
standard deviation of 5%, which is comparable to and even better than
those based on complicated processes shown in the literature, are
encouraging.