Seeing is believing: what is on the surface of silver nanocrystals suspended in their original reaction solution†
Abstract
Colloidal synthesis of inorganic nanocrystals always involves a multitude of ionic and molecular species. How the chemical species affect the evolution of nanocrystals remains a black box. As an essential ingredient in the polyol synthesis of Ag nanocubes, Cl− has been proposed to co-adsorb on the surface with poly(vinyl pyrrolidone) (PVP) to facilitate shape evolution. However, there is still no direct evidence to confirm the presence of Cl− on the surface of Ag nanocubes while they are suspended in the original reaction solution. By leveraging the high sensitivity of surface-enhanced Raman scattering, here we offer direct evidence, for the first time, by resolving the Ag–Cl vibrational peak at 240 cm−1. This characteristic peak disappears if the synthesis is conducted in the absence of Cl−. Instead, three peaks associated with CF3COO− (from the precursor to Ag) are observed. When the sample is diluted with ethylene glycol, all the peaks associated with CF3COO− decrease proportionally in intensity, implying the involvement of chemisorption and negligible desorption during dilution. The chemisorbed CF3COO− is readily replaced by Cl− due to their major difference in binding strength. The co-adsorbed Cl− forces the carbonyl group of PVP binding to the Ag surface to take a more perpendicular configuration, enhancing its peak intensity. Altogether, these findings shed new light on the roles played by various chemical species in a successful synthesis of Ag nanocubes.
- This article is part of the themed collections: Celebrating George Whitesides’ 85th birthday , 2024 Chemical Science HOT Article Collection and Celebrating the scientific accomplishments of RSC Fellows