Perspective on recent developments of nanomaterial based fluorescent sensors: applications in safety and quality control of food and beverages
Ailing Han a, Sijia Hao a, Yayu Yang a, Xia Li a, Xiaoyu Luo a, Guozhen Fang a, Jifeng Liu a,*, Shuo Wang a,b,**
a State Key Laboratory of Food Nutrition and Safety, College of Food Science and Engineering, Tianjin University of Science and
Technology, Tianjin, 300457, PR China
b Research Center of Food Science and Human Health, School of Medicine, Nankai University, Tianjin, 300071, PR China
As the highly toxic pollutants will seriously harm human health, it is particularly important to establish the analysis and detection technology of food pollutants. Compared with the traditional detection methods, fluorescent detection technique based on nanomaterials trigger wide interesting because of reduced detection time, simple operation, high sensitivity and selectivity and economic. In this review, the application of fluorescent sensors in food pollutants detection is presented. Firstly, conventional fluorescent nanomaterials including metal-based quantum dots, carbon-based quantum dots and metal nanoclusters were summarized, with emphasis on the photoluminescence mechanism. Then, the fluorescence sensors based on these nanomaterials for food pollutants detection were discussed, involving in the established methods, sensor mechanisms, sensitivity, selectivity and practicability of fluorescence sensors. The selected analytes focus on five types of higher toxic food pollutants, including mycotoxins, foodborne pathogens, pesticide residues, antibiotic residues, and heavy metal ions. Finally, outlook on the future and potential development of fluorescence detection technology in the field of food science were proposed, including green synthesis and reusability of fluorescence probes, large-scale industrialization of sensors, nondestructive testing of samples and degradation of harmful substances.
Keywords: Fluorescent nanomaterial, Food pollutant, Photoluminescence mechanism, Sensing mechanism, Toxicity
https://doi.org/10.38212/2224-6614.1270
(https://www.jfda-online.com/journal/vol28/iss4/2/)