Automated Determination of Ammonium at Nanomolar Levels in Seawater by Coupling Lab-in-Syringe with Highly Sensitive Light-Emitting-Diode-Induced Fluorescence Detection

Automated Determination of Ammonium at Nanomolar Levels in Seawater by Coupling Lab-in-Syringe with Highly Sensitive Light-Emitting-Diode-Induced Fluorescence Detection

Ammonium concentrations in marine environments are typically found at the nanomolar level, and due to the transformation tendencies of ammonium species, there is a growing demand for a simple, convenient, and highly sensitive automated method for seawater ammonium quantification. Such a method shoul...

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Bibliographic Details
Main Authors: Xiaochen Guo, Hongliang Li, Yue Shen, Yangyang Lu, Yong Zhu, Jianfang Chen
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Molecules
Subjects:
ammonium
fluorometric determination
light-emitting-diode-induced fluorescence detector
lab-in-syringe
seawater
Online Access:https://www.mdpi.com/1420-3049/30/6/1288
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Summary:Ammonium concentrations in marine environments are typically found at the nanomolar level, and due to the transformation tendencies of ammonium species, there is a growing demand for a simple, convenient, and highly sensitive automated method for seawater ammonium quantification. Such a method should be suitable for in situ applications without the need for additional enrichment or extraction steps. To meet this need, we developed a highly sensitive automated flow system that integrates a portable LED-induced fluorescence detector, incorporating the novel <i>AccuOpt</i> 2000 photodetector and lab-in-syringe technology, enabling direct fluorescence measurement of trace ammonium in seawater. Key system parameters were optimized, and the seawater matrix effects were assessed. The system achieved a detection limit of 0.90 nmol/L, with a linear range up to 400 nmol/L and relative standard deviations of 0.94% (100 nmol/L, <i>n</i> = 21). The sensitivity was nearly ten-fold higher than those of conventional approaches. Seawater matrix effects, including carryover, were negligible. The system’s measurements correlated well with the indophenol blue spectrophotometric method. These results underscore the system’s strong potential for in situ/on-site monitoring of trace ammonium levels in marine environments.
ISSN:1420-3049

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