Electrochemical Detection of Synthetic Vanillin Using a Strontium Pyrophosphate Nanorod-Modified Electrode.

Synthetic vanillin (VLN) is extensively utilized as a flavoring agent in the food and pharmaceutical industries, raising health concerns due to its synthetic origin and widespread consumption. Strontium phosphate (SrPO) has been a desirable electrode modifier in recent years due to its distinct structural and electrochemical characteristics. Due to its stability, efficacy, and electrocatalytic capabilities, SrPO has emerged as a competent electrocatalytic material. This study presents the fabrication and application of a screen-printed carbon electrode (SPCE) modified with SrPO nanorods as a sensitive and selective electrochemical sensor for VLN detection. SrPO nanorods were synthesized via a sonochemical approach and thoroughly characterized by spectroscopic and electrochemical techniques to confirm their structural and functional properties. Quantification of VLN was achieved using a sensitive amperometric (-) technique, yielding a lower detection limit of 0.52 nM and a wide linear detection range of 0.001-726.8 μM. Additionally, real-sample analyses in food samples exhibited recovery rates (±98.00-99.66%), underscoring the platform's practical applicability for monitoring synthetic VLN in real-world conditions. This work highlights the potential of SrPO-modified SPCEs as reliable tools for food safety applications, offering a cost-effective, disposable solution for synthetic vanillin detection.