Abstract
Background
Ascorbic acid (AA), dopamine (DA), uric acid (UA), and nitrite (NO2−) are essential biomarkers for human metabolism, and can be used to indicate some chronic diseases and metabolic disorders, including scurvy, Parkinson’s disease, hyperuricemia, and kidney disease.
Objective
A multifunctional electrochemical sensor that can integrate the detection of these species was constructed using nanoporous gold (NPG) as a recognition element to modify glassy carbon electrode (GCE).
Methods
The electrochemical performance of the multifunctional electrochemical sensor was investigated toward AA, DA, UA, and NO2− in citrate buffer solution (CBS, 100 mM, pH 4.0) and human serum using cyclic voltammetry (CV) and differential pulse voltammetry (DPV) methods.
Results
In the quaternary mixture detection, the resulting NPG/GCE electrode displayed four independent oxidation peaks with wide peak separations. Further, the NPG/GCE electrode showed good linear responses with the sensitivities of 32, 1103, 71, and 147 μA/mM/cm2 and the detection limits of 1.58, 0.17, 0.37, and 0.36 μM for AA, DA UA, and NO2−, respectively. Additionally, the NPG/GCE electrode exhibited great anti-interference and was successfully applied in human serum samples.
Conclusions
These results indicate that the NPG/GCE electrode can simultaneously and selectively detect AA, DA, UA, and NO2−, which has the potential for application and diagnosis in the screening and diagnosis of chronic diseases and metabolic disorders.
Highlights
A multianalyte electrochemical sensor was fabricated for human metabolites detection. The sensor displayed good performance in the simultaneous detection of AA, DA, UA, and NO2−, and applied to human serum samples.
