Diazonium-derived Aryl Films on Gold Nanoparticles: Evidence for a Carbon-gold Covalent Bond

Overview

Journal ACS Nano

Publisher American Chemical Society

Specialty Biotechnology

Date 2011 Apr 28

PMID 21520960

Citations 23

Authors

Lars Laurentius

Stanislav R Stoyanov

Sergey Gusarov

Andriy Kovalenko

Rongbing Du

Gregory P Lopinski

Mark T McDermott

Affiliations

Soon will be listed here.

Abstract

Tailoring the surface chemistry of metallic nanoparticles is generally a key step for their use in a wide range of applications. There are few examples of organic films covalently bound to metal nanoparticles. We demonstrate here that aryl films are formed on gold nanoparticles from the spontaneous reduction of diazonium salts. The structure and the bonding of the film is probed with surface-enhanced Raman scattering (SERS). Extinction spectroscopy and SERS show that a nitrobenzene film forms on gold nanoparticles from the corresponding diazonium salt. Comparison of the SERS spectrum with spectra computed from density functional theory models reveals a band characteristic of a Au-C stretch. The observation of this stretch is direct evidence of a covalent bond. A similar band is observed in high-resolution electron energy loss spectra of nitrobenzene layers on planar gold. The bonding of these types of films through a covalent interaction on gold is consistent with their enhanced stability observed in other studies. These findings provide motivation for the use of diazonium-derived films on gold and other metals in applications where high stability and/or strong adsorbate-substrate coupling are required.

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