Picomolar detection limits for glyphosate by two‐dimensional column‐coupled isotachophoresis/capillary zone electrophoresis‐mass spectrometry

Graf, Hannes Georg; Rudisch, Benjamin Maximilian; Ude, Lukas; Muller, Linda L.; Hühn, Carolin

doi:10.1002/jssc.202200519

Cited by 7 publications

(6 citation statements)

References 64 publications

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“…As expected, most of the recent reports involving stacking are focused on the application of the approach to various samples, including drinking water [375,376], brain tissue [377], fish [378], meat [379], plants [380], human urine and serum [381], noting that the injection of these samples often requires homogenization, filtration, evaporation, and/or dilution [382,383]. It is also worth mentioning a recent approach by Perrin's group, describing the possibility to combine desalting, protein precipitation, automated liquid-liquid extraction, in-line CE stacking and electrophoretic separation [384], the possibility to combine surfactants and pressure to increase the concentration of analytes (×3000) [385], and the approach described by Graf coupling ITP-CE for the analysis of glyphosate at pM levels [386].…”

Section: Injection Modes To Improve the Sensitivitymentioning

confidence: 99%

Strategies for capillary electrophoresis: Method development and validation for pharmaceutical and biological applications—Updated and completely revised edition

et al. 2023

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This review is in support of the development of selective, precise, fast, and validated capillary electrophoresis (CE) methods. It follows up a similar article from 1998, Wätzig H, Degenhardt M, Kunkel A. “Strategies for capillary electrophoresis: method development and validation for pharmaceutical and biological applications,” pointing out which fundamentals are still valid and at the same time showing the enormous achievements in the last 25 years. The structures of both reviews are widely similar, in order to facilitate their simultaneous use. Focusing on pharmaceutical and biological applications, the successful use of CE is now demonstrated by more than 600 carefully selected references. Many of those are recent reviews; therefore, a significant overview about the field is provided. There are extra sections about sample pretreatment related to CE and microchip CE, and a completely revised section about method development for protein analytes and biomolecules in general. The general strategies for method development are summed up with regard to selectivity, efficiency, precision, analysis time, limit of detection, sample pretreatment requirements, and validation.

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Section: Injection Modes To Improve the Sensitivitymentioning

confidence: 99%

Strategies for capillary electrophoresis: Method development and validation for pharmaceutical and biological applications—Updated and completely revised edition

et al. 2023

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“…5,[11][12][13] However, both GlyP and AMPA are highly polar molecules containing phosphate groups in their molecular structures, 10 and thus the detection method is oen limited to liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS) aer molecular derivatization with 9-uorenylmethyl chloroformate (FMOC-Cl) for the improved detection sensitivity 10,[14][15][16] although there have been various methods developed, including electrochemical sensors and capillary electrophoresis (CE). 2,7,17 It is worth noting that an extremely low limit of detection for GlyP was reported at 0.12 ng L −1 (0.7 pM) aer the solid phase extraction of 500 mL sea water. 16 To further study the effects of GlyP and its degradation products in various sample sources on human health and environments, novel detection platforms and technologies are highly desired because the presently available techniques have limitations, such as low detection sensitivity, high cost, and time-consuming procedures.…”

Section: Introductionmentioning

confidence: 99%

“…5,11–13 However, both GlyP and AMPA are highly polar molecules containing phosphate groups in their molecular structures, 10 and thus the detection method is often limited to liquid chromatography coupled with tandem mass spectrometry (LC-MS/MS) after molecular derivatization with 9-fluorenylmethyl chloroformate (FMOC–Cl) for the improved detection sensitivity 10,14–16 although there have been various methods developed, including electrochemical sensors and capillary electrophoresis (CE). 2,7,17 It is worth noting that an extremely low limit of detection for GlyP was reported at 0.12 ng L −1 (0.7 pM) after the solid phase extraction of 500 mL sea water. 16…”

Section: Introductionmentioning

confidence: 99%

Sensitive detection of herbicide residues using field-amplified sample injection coupled with electrokinetic supercharging in flow-gated capillary electrophoresis

Gong,

Gong

2024

Anal. Methods

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“…So far, numerous apparatus analysis methods have been established for quantifying pesticide residues such as gas chromatography–mass spectrometry, capillary electrophoresis, and high-performance liquid chromatography (HPLC)-mass spectrometry. − Despite the good sensitivity and dependability of these traditional detection means, a considerable amount of operational time and efforts are required with sophisticated processes . Such inadequacies may prevent their practical usefulness in responding immediately to sudden public emergencies and food poisoning incidents.…”

Section: Introductionmentioning

confidence: 99%

Ultrasensitive Fluorescence Platform Based on AgNPs In Situ-Incorporated Zr-MOFs for the Detection of Organophosphorus Pesticides

Wang,

Pan,

Wang

et al. 2023

ACS Appl. Mater. Interfaces

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Organophosphorus pesticides (OPPs) are extensively used in agricultural production, and the contamination caused by their residues has raised significant concerns regarding potential threats to human health. Herein, a novel fluorescence nanoprobe based on an enzyme-mediated silver nanoparticle-modified metal organic framework (AgNPs@PCN-224) was successfully prepared for the rapid detection of OPPs. Initially, AgNPs@PCN-224 were synthesized by reducing silver nitrate (AgNO3) using sodium borohydride (NaBH4) embedded into luminescent PCN-224. This triggered the inner filter effect, leading to fluorescence quenching. Meanwhile, under the catalysis of acetylcholinesterase (AChE) and choline oxidase (CHO), acetylcholine (ATCh) was decomposed to hydrogen peroxide (H2O2), which could destroy AgNPs to form Ag+ released from PCN-224 for fluorescence recovery. Instead, fenitrothion, an OPP, inhibited AChE activity, allowing the quenched fluorescence to be reactivated. Under the current optimum conditions, the fluorescence intensity had a good correlation (Y = −728.5370X + 2178.4248, R 2 = 0.9869) over a dynamic range of fenitrothion concentrations from 0.1 to 500 ng/mL, with an LOD of 0.037 ng/mL. In addition, the anti-interference ability and robustness of the proposed sensor was verified for the monitoring of fenitrothion in tea with recoveries of 87.67–103.72% and the relative standard deviations (RSD) < 5.43%, indicating that the system has excellent prospects for OPP determination in practical applications. Furthermore, this work provides a universal platform for screening other enzyme inhibitors to detect OPPs.

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Picomolar detection limits for glyphosate by two‐dimensional column‐coupled isotachophoresis/capillary zone electrophoresis‐mass spectrometry

Cited by 7 publications

References 64 publications

Strategies for capillary electrophoresis: Method development and validation for pharmaceutical and biological applications—Updated and completely revised edition

Strategies for capillary electrophoresis: Method development and validation for pharmaceutical and biological applications—Updated and completely revised edition

Sensitive detection of herbicide residues using field-amplified sample injection coupled with electrokinetic supercharging in flow-gated capillary electrophoresis

Ultrasensitive Fluorescence Platform Based on AgNPs In Situ-Incorporated Zr-MOFs for the Detection of Organophosphorus Pesticides

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