Plasmonic photoelectrochemical dimerization and reduction of p-halo-nitrobenzene on AgNPs@Ag electrode

Abstract Electrochemical surface-enhanced Raman spectroscopy (EC-SERS) can provide the fingerprint information at the molecular level during electrochemical processes and the laser used in the EC-SERS process can simultaneously induce the plasmon-mediated chemical reaction (PMCR). In this work, EC-SERS has been used to understand the plasmonic effects on the selective dimerization reduction route of para-halonitrobenzene on the AgNPs@Ag electrode. Para-iodonitrobenzene (pINB) was first chosen as the probe molecule for photoelectrochemical reductions and investigated in acidic and neutral electrolyte solutions. The density functional theory (DFT) calculations confirmed that the electrochemical reduction of pINB produces 2-amino-5-iodophenol in HClO4 and p,p’-diiodoazobenzene (DIAB) in neutral electrolyte. However, when the PMCR is introduced in the electroreduction of pINB, the route of reduction path can be altered to the reduction product DIAB. Thus DIAB was generated firstly both in acidic and neutral conditions by PMCR and then reduced to p-iodoaniline. Finally, all the para chloro- and bromo- nitrobenzene can generate the p,p’-dihalo-azobenzene dimer by the PMCR under acidic conditions. Therefore, the plasmonic photoelectrochemical dimerization and reduction reactions can give us an idea to introduce the light on the selectivity of chemical reactions on plasmonic noble electrodes of nanostructures to alter the reduction pathway. This is practically significant for obtaining highly selective reduction products.