Prostate cancer (PCa) is widely spread in male population, especially over 65 years. Currently used medical methods of PCa diagnosis often lead to false-positive results thus new non-invasive methods for PCa detection, such as urine tests for cancer metabolites, are actively studied.
Herein, nanostructured polycrystalline cerium oxide thin films (CeO2/GC) prepared by magnetron sputtering on a glassy carbon substrate are tested for electrochemiluminescent (ECL) detection of sar-cosine exploiting the oxidative-reduction mechanism using Ru(bpy)32+ as luminophore. Non-functionalized CeO2/GC electrodes revealed a higher ECL signal stability compared to bare glassy carbon electrodes.
Moreover, CeO2/GC electrodes were successfully applied for rapid and sensitive detection of different sarcosine con-centrations ranging from 50 to 5000 mu M. These results open new possibilities for developing sensing platforms for sarcosine detection based on the CeO2/GC working electrode via surface modification and functionalization, aiming to further investigate and improve their sensitivity and selectivity.