We developed an inexpensive, portable platform for urea detection via electrochemistry by depositing silver nanoparticles (AgNPs) on a commercial glucose test strip. We modified this strip by first removing the enzymes from the surface, followed by electrodeposition of Agnps on one channel (working electrode). The morphology of the modified test strip was characterized by Scanning Electron Microscopy (SeM), and its electrochemical performance was evaluated via cyclic Voltammetry (cV) and electrochemical impedance Spectroscopy (eiS). We evaluated the performance of the device for urea detection via measurements of the dependency of peak currents vs the analyte concentration and from the relationship between the peak current and the square root of the scan rates. the observed linear range is 1-8 mM (corresponding to the physiological range of urea concentration in human blood), and the limit of detection (LOD) is 0.14 mM. The selectivity, reproducibility, reusability, and storage stability of the modified test strips are also reported. Additional tests were performed to validate the ability to measure urea in the presence of confounding factors such as spiked plasma and milk. the results demonstrate the potential of this simple and portable ec platform to be used in applications such as medical diagnosis and food safety. Urea is an important biomarker for medical diagnosis 1 , which is a product of the urea cycle to lower down the toxic level induced by high concentration of nitrogen compound by converting ammonium ions into urea, and will be eventually eliminated by the kidney as urine 2. As a result, the concentration of urea in serum can be used for disease diagnosis related to kidney and liver function 3. In addition, the concentration of urea in food products such as milk is crucial for food safety 4. For example, there have been reports of milk adulteration by adding urea into diluted milk to preserve the thickness and viscosity 5. Therefore, accurate measurements of urea adulteration is important for health and food safety. Biosensors convert the biological or chemical information into detectable signals with applications in medical diagnostics, food safety and environmental monitoring 6. Based on different detection methods, there are various types of biosensors that have been developed for urea detection based on optical 7,8 , thermal 9 , piezoelectric 10 , or magnetic measurements 11,12. In addition, Electrochemical (EC) biosensors, have attracted a lot of attention in urea detection recently, due to their simplicity and low limit of detection 13. EC biosensors directly convert the reaction of biological/chemical molecules to electrical response, providing a straightforward way to detect the target of interest 14,15. A change in electrical current or potential is measured due to the reaction related to the analytes occurring on the electrode. In the case of voltammetry, the analyte is detected by measuring the corresponding current obtained by applying a varying potential between the working and reference...
