Braid solid-phase microextraction of polycyclic aromatic hydrocarbons by using fibers coated with silver-based nanomaterials in combination with HPLC with fluorometric detection

Gutiérrez‐Serpa, Adrián; Schorn-García, Daniel; Jiménez-Moreno, Francisco; Jiménez‐Abizanda, Ana I.; Pino, Verónica

doi:10.1007/s00604-019-3452-3

Cited by 12 publications

(2 citation statements)

References 38 publications

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“…The SPME technology has several versions and may be found in a variety of geometries; including in-tube, hollow fiber, thin-film, coated-tip, and magnetic nanoparticles. The fiber architecture, in which a fiber is coated by a particular sorbent to extract target chemicals from the sample matrix via DI-SPME or from the HS-SPME, remains the most common [26]. The microextraction process involves introducing a small quantity of extraction phase, utilizing a fused silica fiber that is enveloped by a thin layer ranging from 7-100 µm of either an immobilized polymer or a solid adsorbent [16].…”

Section: Introductionmentioning

confidence: 99%

Advancements in solvent microextraction: Recent developments and diverse applications in the modern era

Rani,

Nanda,

Narang

et al. 2024

Separation Science Plus

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Solvent microextraction (SME) is designed to selectively isolate desired analytes while minimizing the presence of interfering substances in the extracted sample. There are different approaches from which single‐drop microextraction (SDME) can be amalgamated with various analytical methods to enhance its functionalities and improve the analysis of extracted compounds like gas chromatography, and liquid chromatography amplify sensitivity, selectivity, and the capacity to detect trace amounts of analytes in complex matrices. The review focuses on the intricacies of solid‐phase microextraction and elucidates its operational principles. Additionally, it explores various types of SDMEs, detailing their respective benefits, drawbacks, and potential applications in the future. A typical explanation of the construction and working of hollow fiber‐liquid phase microextraction as well as its types has been discussed. The applications of SMEs in the medical and biomedical fields from food analysis to environmental analysis like analysis and purification of water, organic pollutants, drug analysis, and screening of new drugs have been discussed and also illustrated in tabular form. The pros and cons of both analytical techniques are given in a tabular manner as well a broad comparison between different types of advanced SME techniques provides a new direction for environmental monitoring, food safety, and refining of impurities from water samples. The review provides a comprehensive overview of the current progress, recent obstacles, and future possibilities of SMEs in an appropriate manner. Despite numerous promising advancements, the utilization of SMEs remains a challenging field.

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Section: Introductionmentioning

confidence: 99%

Advancements in solvent microextraction: Recent developments and diverse applications in the modern era

Rani,

Nanda,

Narang

et al. 2024

Separation Science Plus

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show abstract

“…Even though the SPME patent did not thwart academia/industry from conducting research on SPME devices and extraction phases [10][11][12], it categorically prevented corporations from commercializing improved versions of the "traditional" fiber (e.g., enhancements to the substrate to make a more robust technology). The expiration of intellectual property a few years ago enabled commercial vendors to not only offer the "traditional" SPME fibers, but to also mechanically and chemically enhance versions of this technology.…”

mentioning

confidence: 99%

Hunting Molecules in Complex Matrices with SPME Arrows: A Review

et al. 2020

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Thirty years since the invention and public disclosure of solid phase microextraction (SPME), the technology continues evolving and inspiring several other green extraction technologies amenable for the collection of small molecules present in complex matrices. In this manuscript, we review the fundamental and operational aspects of a novel SPME geometry that can be used to “hunt” target molecules in complex matrices: the SPME Arrow. In addition, a series of applications in environmental, food, cannabis and forensic analysis are succinctly covered. Finally, special emphasis is placed on novel interfaces to analytical instrumentation, as well as recent developments in coating materials for the SPME Arrow.

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Rational integration of porous organic polymer and multiwall carbon nanotube for the microextraction of polycyclic aromatic hydrocarbons

Xiao

Wang

et al. 2020

Microchim Acta

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Braid solid-phase microextraction of polycyclic aromatic hydrocarbons by using fibers coated with silver-based nanomaterials in combination with HPLC with fluorometric detection

Cited by 12 publications

References 38 publications

Advancements in solvent microextraction: Recent developments and diverse applications in the modern era

Advancements in solvent microextraction: Recent developments and diverse applications in the modern era

Hunting Molecules in Complex Matrices with SPME Arrows: A Review

Rational integration of porous organic polymer and multiwall carbon nanotube for the microextraction of polycyclic aromatic hydrocarbons

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