Enzyme-free colorimetric determination of uric acid based on inhibition of gold nanorods etching

An enzyme-free colorimetric method for sensitive detection of uric acid (UA) was established, which was achieved by inhibiting the etching of gold nanorods (AuNRs). The longitudinal direction of AuNRs would be gradually etched by I-2, as an oxidant, generated by the reaction between MnO2 nanosheets (MnO2 NS) and I-. Benefitted from the length change, the localized surface plasmon resonance (LSPR) peak of AuNRs showed an obvious blue shift, led to the color change of AuNRs solution. Once UA was introduced, MnO2 NS was reduced to Mn2+ rapidly. As a result, the formation of I-2 was reduced and the etching of AuNRs was inhibited. Therefore, a simple method for the assay of UA was achieved with UV-vis absorption spectra and bare eyes, respectively. In optimization conditions, LSPR absorption peak shift (Delta lambda) of AuNRs before and after inhibition enabled the sensitive detection of UA in the range of 0.8-30 mu M and 30-300 mu M, the detection limit of low concentration range was 0.76 mu M. The developed method has been utilized for determining UA in clinical samples with satisfactory results.

Automated summary

An enzyme-free colorimetric method for sensitive detection of uric acid was established by inhibiting the etching of gold nanorods. The method achieved detection through UV-vis absorption spectra and visual observation, with a detection limit of 0.76 μM in low concentration range. This method has been successfully applied for determining uric acid in clinical samples.