Machine-Learning-Assisted Aggregation-Induced Emissive Nanosilicon-Based Sensor Array for Point-of-Care Identification of Multiple Foodborne Pathogens.
Journal:
Analytical chemistry
PMID:
38619494
Abstract
How timely identification and determination of pathogen species in pathogen-contaminated foods are responsible for rapid and accurate treatments for food safety accidents. Herein, we synthesize four aggregation-induced emissive nanosilicons with different surface potentials and hydrophobicities by encapsulating four tetraphenylethylene derivatives differing in functional groups. The prepared nanosilicons are utilized as receptors to develop a nanosensor array according to their distinctive interactions with pathogens for the rapid and simultaneous discrimination of pathogens. By coupling with machine-learning algorithms, the proposed nanosensor array achieves high performance in identifying eight pathogens within 1 h with high overall accuracy (93.75-100%). Meanwhile, and are taken as model bacteria for the quantitative evaluation of the developed nanosensor array, which can successfully distinguish the concentration of and at more than 10 and 10 CFU mL, respectively, and their mixed samples at 10 CFU mL through the artificial neural network. Moreover, eight pathogens at 1 × 10 CFU mL in milk can be successfully identified by the developed nanosensor array, indicating its feasibility in monitoring food hazards.