SERS-Based Methodology for the Quantification of Ultratrace Graphene Oxide in Water Samples

The extensive use of graphene materials in real-world applications has increased their potential release into the environment. To evaluate their possible health and ecological risks, there is a need for analytical methods that can quantify these materials at very low concentrations in environmental media such as water. In this work, a simple, reproducible, and sensitive method to detect graphene oxide (GO) in water samples using the surface-enhanced Raman spectroscopy (SERS) technique is presented. The Raman signal of graphene is enhanced when deposited on a substrate of gold nanoparticles (AuNPs), thus enabling its determination at low concentrations with no need for any preconcentration step. The practical limit of quantification achieved with the proposed method was 0.1 ng mL(-1), which is lower than the predicted concentrations for graphene in effluent water reported to date. The optimized procedure has been successively applied to the determination of ultratraces of GO in water samples.

Automated summary

A simple, reproducible, and sensitive method using surface-enhanced Raman spectroscopy (SERS) was developed for the detection of graphene oxide (GO) in water samples at low concentrations. The practical limit of quantification achieved with this method was 0.1 ng mL(-1), which is lower than the predicted concentrations for graphene in effluent water. This optimized procedure has been successfully applied to the determination of ultratraces of GO in water samples.