Seedless synthesis of gold nanorods by using hydrogen peroxide as a weak reducing agent

Abstract

A new seedless wet chemistry synthesis of gold nanorods by using hydrogen peroxide as the weak reducing agent is reported. A reduced concentration of hexadecyltrimethylammonium bromide is used in our experiment, and the synthesized gold nanorods exhibit tunable longitudinal surface plasmon resonance peaks ranging from 725 to 945 nm. The influence on gold nanorods growth by adjusting the amounts of sodium hydroxide, silver nitrate, sodium borohydride, and hexadecyltrimethylammonium bromide were investigated by the visible-near infrared spectroscopy. Under the proper experimental parameters, the longitudinal surface plasmon resonance peaks can be tuned by varying the hydrogen peroxide amounts. Furthermore, it can be seen that the redshift of the longitudinal absorption peak of the prepared gold nanorods with increasing hydrogen peroxide amount is consistent with the increase tendency of the length-to-width aspect ratio obtained from the transmission electron microscopy images. The method provides a facile pathway to prepare gold nanorods with tunable longitudinal surface plasmon resonance peaks, which have potential applications in biomedicine and nanophotonics.