Review—Electrochemical Sensing of Uric Acid: Methods and Recent Materials

Abstract: Uric acid (UA) is an important biomarker in blood to diagnosis diseases linked with hyperuricemia. Although several detection methods exist for UA sensing, electrochemical method has emerged as a promising alternative. For effective performance of a biosensor, the choice of electroactive material plays a crucial role. The developed electrodes are enzymatic and non-enzymatic with modified nano-structures of metal oxides, ferrites and carbon-based materials. Several combinations of nanocomposites using metal oxi… Show more

“…Therefore, monitoring change in uric acid concentration in bio uid is crucial to disease diagnosis and personal health management [3]. Main analytical techniques for uric acid are liquid chromatographymass spectrum (LC-MS) [4], colorimetric method [5], uorescence method [6] and electrochemical sensor [7]. LC-MS is the most used tool for detection of uric acid in medical laboratory due to high sensitivity and selectivity, but it needs high-purity organic solvent, expensive instrument and skilled operator.…”

Self-powered sensing platform for monitoring uric acid in sweat using cobalt nanocrystal-graphene quantum dot-Ti3C2TX monolithic film electrode with excellent supercapacitor and sensing behavior

“…Therefore, monitoring change in uric acid concentration in bio uid is crucial to disease diagnosis and personal health management [3]. Main analytical techniques for uric acid are liquid chromatographymass spectrum (LC-MS) [4], colorimetric method [5], uorescence method [6] and electrochemical sensor [7]. LC-MS is the most used tool for detection of uric acid in medical laboratory due to high sensitivity and selectivity, but it needs high-purity organic solvent, expensive instrument and skilled operator.…”

Self-powered sensing platform for monitoring uric acid in sweat using cobalt nanocrystal-graphene quantum dot-Ti3C2TX monolithic film electrode with excellent supercapacitor and sensing behavior

Self-powered sensing platform for monitoring uric acid in sweat using cobalt nanocrystal-graphene quantum dot-Ti3C2TX monolithic film electrode with excellent supercapacitor and sensing behavior

Innovating uric acid Biosensing: Development of a GSH@Cd-Mediated Dual-Signal fluorometric method