Copper nano metal-organic framework paper-based sensor for dual optical detection of biogenic amines to evaluate the food freshness
Candela Melendreras, Inmaculada Ortiz‐Gómez, Pablo Álvarez-García, Elena Lastra, Francisco J. Garcı́a Alonso, José M. Costa‐Fernández, Ana Soldado
Abstract
The improvement of food safety and the reduction of food loss and waste require the development of new bioanalytical tools that provide chemical information about the composition of food that is of great value for improving traceability and extending the shelf life of food. Herein, a Cu-based metal-organic framework has been synthesized and immobilized onto cellulose paper disks for colorimetric and fluorescent detection and quantification of biogenic amines in food. The color of the nano metal-organic framework changes from green to brown in the presence of low amounts of biogenic amine vapors. Also, the fluorescence emission of the nano metal-organic framework greatly decreases after exposing the cellulose disks to amine vapors. The developed sensing paper disk exhibits a quick response to the presence of volatile biogenic amines, very low detection limits, and great selectivity. Also, the paper sensor was used for real-time monitoring of biogenic amines in bass samples at different temperature conditions, being a highly valuable method for evaluating food freshness and safeguarding food safety. • Non-invasive food safety methodology based on dual optical sensor. • Fluorescent detection in a paper-based device to biogenic amines vapors. • Smartphone assessment for colorimetric detection of biogenic amines vapors in food. • On-site monitoring of food spoilage through a paper-based device.