Sensitive electrochemical detection of enrofloxacin in eggs based on carboxylated multi-walled carbon nanotubes-reduced graphene oxide nanocomposites: Molecularly imprinted recognition versus direct electrocatalytic oxidation

A sensitive electrochemical method for detecting enrofloxacin was proposed using carboxylated multi-walled carbon nanotubes-reduced graphene oxide (MWCNT-COOH-RGO) nanocomposites. The MWCNT-COOH-RGO nanocomposites were firstly electrodeposited on a bare electrode, followed by electropolymerization of molec-ularly imprinted polymers. Enrofloxacin was determined by the mechanisms of direct electrocatalytic oxidation and molecularly imprinted recognition, respectively. Under the optimized conditions, a response range of 5.0x10-7 M to 5.5x10-5 M and limit of detection (LOD) of 2.3x10-7 M were obtained by direct electrocatalytic oxidation of enrofloxacin using chronoamperometry. By contrast, the response range of 1.0x10-10 M to 5.0x10-5 M and LOD of 2.5x10-11 M were achieved by molecularly imprinted recognition of enrofloxacin using square-wave voltammetry. Moreover, the proposed method exhibited good repeatability, stability and selec-tivity, and could be used for enrofloxacin detection in egg samples with satisfactory results.

Automated summary

A sensitive electrochemical method for detecting enrofloxacin was proposed using carboxylated multi-walled carbon nanotubes-reduced graphene oxide (MWCNT-COOH-RGO) nanocomposites. Enrofloxacin was determined by direct electrocatalytic oxidation and molecularly imprinted recognition, achieving a response range of 5.0x10-7 M to 5.5x10-5 M and a limit of detection of 2.3x10-7 M, and a response range of 1.0x10-10 M to 5.0x10-5 M and a limit of detection of 2.5x10-11 M, respectively. The proposed method exhibited good repeatability, stability, and selectivity, and could be applied for enrofloxacin detection in egg samples.