Eco-innovative electrochemical sensing for precise detection of vanillin and sulfadiazine additives in confectioneries

• Published in: Applied surface science advances Vol. 20; p. 100584
• Main Authors: Lee, Yen-Yi, Sriram, Balasubramanian, Wang, Sea-Fue, Stanley, Megha Maria, Lin, Wan-Ching, Kogularasu, Sakthivel, Chang-Chien, Guo-Ping, George, Mary
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.04.2024; Elsevier
• Subjects: Cobalt oxide; Electrochemical sensor; Food additives; Green synthesis; Sulfadiazine; Vanillin; Cobalt oxide; Sulfadiazine; Green synthesis; Vanillin; Electrochemical sensor; Food additives
• ISSN: 2666-5239; 2666-5239
• DOI: 10.1016/j.apsadv.2024.100584

The continuous emergence of food additives and contaminants in edibles, especially confectioneries, demands advanced detection methods to ensure public health and safety. Vanillin (VAL) and sulfadiazine (SD) are of paramount concern due to their extensive application in various products. While VAL is favored for its flavoring attributes, SD, a common antibiotic, can inadvertently contaminate food items. For accurate and swift detection of these compounds, we introduced an innovative electrochemical sensor using cobalt oxide nanostructures. Notably, synthesizing these nanostructures through a green approach using glucose and starch is a significant advancement, offering both environmental benefits and enhanced material properties. The novelty of the material lies in its eco-friendly synthesis route and superior electrocatalytic performance. Preliminary results indicate a promising limit of detection (LOD) VAL= 0.003 µM & SD= 0.0055 µM and a broad linear range 0.02–209 µM emphasizing its potential for real-world food quality monitoring. This work, therefore, provides a crucial intersection of sustainable material synthesis and effective food contaminant detection, heralding a new era in food safety evaluation. [Display omitted]