Wearable biomolecule smart sensor based on Au@PB NPs with high electrochemical activity

Wearable biosensors have aroused great interest because of their potential to provide continuous and real-time physiological information through dynamic and fast response to biochemical markers in biological fluids. When the wearable sensor is used for fluid detection, required to sensors own high sensitivity and low detection limit since the complex substrate and trace amount of target. Therefore, prepared high response nanomaterials play a crucial for fabrication of wearable sensors. In our work, Prussian blue nanomaterials with core-shell structure was successfully synthesized via using Au NPs as catalyst, as prepared core-shell structural Au@PB NPs exhibited high electrochemical activity, wonderful water solubility and high stability. Then combined with screen printing technology to construct highly stable flexible sensors for the detection of biomarkers with sensitivities 301.5 mu A.mM(-1).cm(-2) and 29.3 mu A.mM(-1).cm(-2) respectively. Furthermore, combined with microfluidic technology, it is expected to be used in health management monitoring and clinical application on a large scale. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

The successfully synthesized core-shell Prussian blue nanomaterials with high electrochemical activity, water solubility, and stability were used to construct wearable sensors using screen printing technology for the detection of biomarkers with high sensitivities. The combination of microfluidic technology is expected to enable large-scale health management monitoring and clinical applications.