Journal
ANALYTICA CHIMICA ACTA
Volume 1274, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.aca.2023.341584
Keywords
Nanozyme; Oxygen vacancies; SERS; Sensing; Uric acid
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The VO-MnCo2O4/Ag nanozyme, prepared by hydrothermal, calcination, and self-reduction methods, showed high uricase-like activity and peroxidase-like activity due to its composition and structure. The catalytic reaction of VO-MnCo2O4/Ag nanozyme significantly enhanced the SERS signal of the detected molecule. A label-free, sensitive, and reliable SERS uric acid detection system was developed based on the enzyme-like activities of VO-MnCo2O4/Ag.
The level of uric acid is crucial to human health. Octahedral oxygen vacancy MnCo2O4/Ag (VO-MnCo2O4/Ag) nanozyme was successfully prepared by simple hydrothermal, calcination and self-reduction methods. VOMnCo2O4/Ag nanozyme is rich in Mn2+/Mn3+ and CO2+/CO3+ redox electron pairs, large specific surface area and oxygen vacancies. VO-MnCo2O4/Ag nanozyme showed high uricase-like activity and peroxidase-like activity. At the same time, the SERS signal of the detected molecule could be significantly enhanced after the catalytic reaction of the VO-MnCo2O4/Ag nanozyme. The Km values of VO-MnCo2O4/Ag nanozyme for H2O2 and TMB were 0.04 mM and 0.027 mM respectively. Based on the uric acid oxidase-like and peroxidase-like activities of VOMnCo2O4/Ag, we developed a label-free, sensitive, and reliable SERS uric acid detection system. The detection linear range of uric acid is 0.01 & mu;M-1000 & mu;M and the detection of limit is 7.8 x 10-9 M. The results show that the sensing system has good accuracy, sensitivity, selectivity, and stability. It can be applied to the determination of samples under different conditions. This study provides profound insights into the design of enzyme-like activity regulation and SERS properties regulation of nanozymes, provides guidance for the study of reaction kinetics and
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