Effect of glucuronic acid on inducing self-assembly of Au nanoflowers@glucuronic acid on carbon cloth for non-enzymatic glucose sensing

Natural materials' structural variation boosts their performance. Therefore, the precise manipulation of the structure and properties of nanomaterials by self-assembly is a topic of great interest. Here, a self-assembly of glucuronic acid (GlcA)-coated Au nanoflowers (NFs) on flexible carbon cloth ([email protected]/CC) for non-enzyme electrochemical glucose detection was fabricated through the sequential deposition of gold and GlcA. The [email protected]/CC exhibits more highly exposed nanoedges than the normal AuNFs/CC without GlcA surface deposition, which may change the stereotyped traditional negative hypotheses of GlcA in glucose electrocatalysis. Notably, the unique {110} facets of Au atop the amino group grafted-CC were found in the [email protected]/CC, significantly improving the sensor's catalytic performance. The highly exposed nanoedges and unique {110} facets of [email protected] were systematically evaluated by scanning electron microscopy, transmission electron microscopy, and other electrochemical characterization tools. The [email protected]/CC exhibits excellent performance in glucose detection, including a wide linear range (5 μM-42 mM), a low limit of detection (5 μM, S/N = 3), high detection selectivity, good stability, and reproductivity. The sensor successfully detected glucose in human sweat samples and beverages in real time. Thus, this simple and green manufacturing method could be used as a novel strategy for glucose monitoring in biological and food samples.