One step alkaline synthesis of biocompatible gold nanoparticles using dextrin as capping agent

Abstract

Gold nanoparticles (AuNPs) are used in sensing methods as tracers and transducers. The most common AuNP synthesis techniques utilize citrate under acidic reaction conditions. The synthesis described in this article generates glyco-AuNPs under mild alkaline conditions providing a “greener” alternative to Brust and Turkevich methodologies. This biologically compatible one-step technique uses dextrin as a capping agent and sodium carbonate as the reducing agent for chloroauric acid. The generated particles were relatively mono-dispersed and water soluble with a range of controllable mean diameters from 5.9 to 16.8 ± 1.6 nm. The produced AuNPs were stable in water for more than 6 months stored at room temperature (21 °C) in generation solution without protection from light. This article shows the effect of temperature, pH, and dextrin concentration on the synthesis procedure and AuNP diameter. These factors were found to control the reaction speed. The produced glyco-AuNPs were successfully functionalized with DNA oligonucleotides, and the functionalization efficiency was similar to citrate-generated AuNPs. The alkaline synthesis allows future exploration of simultaneous synthesis and functionalization procedures, which could significantly reduce the time of current ligand exchange methodologies.