A portable front face fluorescent system for in situ detection of aluminum in flour foods

A portable front face fluorescent system for in situ detection of aluminum in flour foods

•A portable front face fluorescent system for detection of Al3+ was developed.•The PFFFS can be used to detect Al3+ in flour food within 10 min.•The PFFFS has the on-site and portable characteristics. A simple and rapid method for in situ detection of aluminum in flour food was developed by using a...

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Bibliographic Details
Published in:Food chemistry Vol. 418; p. 135986
Main Authors: Jiang, Shuai-Teng, Gao, De-Jiang, Yu, Yang, Yu, Yong
Format: Journal Article
Language:English
Published: England Elsevier Ltd 30-08-2023
Subjects:
Aluminum
Flour
Flour food
Fluorescent Dyes - chemistry
Fluorescent probe
Food additive
In situ detection
Reproducibility of Results
Flour food
In situ detection
Food additive
Aluminum
Fluorescent probe
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Summary:•A portable front face fluorescent system for detection of Al3+ was developed.•The PFFFS can be used to detect Al3+ in flour food within 10 min.•The PFFFS has the on-site and portable characteristics. A simple and rapid method for in situ detection of aluminum in flour food was developed by using a self-made portable front face fluorescent system (PFFFS). The effects of pH, temperature, reaction time, protective agent and masking agent on the detection of Al3+ were investigated. The use of fluorescent probe protective agent, interfering ion masking agent, multi-point collection measurements and the working curves based on the analyte content in the real samples makes the present method have high accuracy, selectivity and reliability for in situ detection of Al3+ in flour foods. By comparison with the ICP-MS the accuracy and reliability of the present method were verified. The results showed that when 97 real samples were analyzed the Al3+ content values obtained by the present method and those obtained by ICP-MS method reached a highly significant correlation, with r ranging from 0.9747 to 0.9844. The self-made PFFFS combined with fluorescent probe does not require sample digestion, and can quickly detect Al3+ in flour food within 10 min. Therefore, the present method based on using FFFS has good practical application value for in-situ rapid detection of Al3+ in flour foods.
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ISSN:0308-8146
1873-7072
DOI:10.1016/j.foodchem.2023.135986