Fluoro-functionalized ionic covalent organic frameworks (F-iCOFs) for highly selective enrichment and sensitive determination of perfluorinated sulfonates by MALDI-MS

An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective enrichment and sensitive determination of perfluorinated sulfonate (PFS) contaminants in a rapid and convenient manner. The good thermal stability...

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Published in	Mikrochimica acta (1966) Vol. 189; no. 12; p. 442
Main Authors	Liu, Xiao-Pan, Sun, Wen-Qian, Zhao, Meng-Ge, Zhang, Xing-Jie, Liu, Li-Hong, Chen, Chang-Po
Format	Journal Article
Language	English
Published	Vienna Springer Vienna 01.12.2022 Springer Springer Nature B.V
Subjects	Adsorption Alkanesulfonates Analytical Chemistry Background noise Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Contaminants Drinking water Enrichment Fluorine Glutamic acid Ions Metal-Organic Frameworks - chemistry Microengineering Nanochemistry Nanotechnology Optical properties Original Paper Pore size Selectivity Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods Sulfonates Thermal stability Water - chemistry MALDI-TOF MS Fluoro-functionalized ionic covalent organic frameworks Matrix and highly selective adsorbent Perfluorinated sulfonates
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Abstract	An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective enrichment and sensitive determination of perfluorinated sulfonate (PFS) contaminants in a rapid and convenient manner. The good thermal stability and excellent optical absorption properties of F-iCOF makes it a brilliant matrix with no background noise. Moreover, benefitting from the large surface area, appropriate pore size, good water dispersibility, and abundant fluorine atom and cationic characteristic of F-iCOF, it exhibited superior adsorption capacity and enrichment selectivity towards PFSs. Good signal responses for PFSs were obtained in the presence of various interfering compounds such as BSA, HA, or even more than 100-fold excess of glutamic acid and similar in structure sodium alkyl sulfonates, highlighting the specific selectivity of F-iCOF. Calibration curves for potassium perflurobutane sulfonate (PFBSK) in tap water and whole blood were established with good linear correlation in the range 1–500 pg mL −1 . The limits of detection and quantification for PFBSK were as low as 0.04 pg mL −1 and 0.05 pg mL −1 , respectively, which are comparable or better than the existing methods for the determination of PFSs. Graphical Abstract
AbstractList	An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective enrichment and sensitive determination of perfluorinated sulfonate (PFS) contaminants in a rapid and convenient manner. The good thermal stability and excellent optical absorption properties of F-iCOF makes it a brilliant matrix with no background noise. Moreover, benefitting from the large surface area, appropriate pore size, good water dispersibility, and abundant fluorine atom and cationic characteristic of F-iCOF, it exhibited superior adsorption capacity and enrichment selectivity towards PFSs. Good signal responses for PFSs were obtained in the presence of various interfering compounds such as BSA, HA, or even more than 100-fold excess of glutamic acid and similar in structure sodium alkyl sulfonates, highlighting the specific selectivity of F-iCOF. Calibration curves for potassium perflurobutane sulfonate (PFBSK) in tap water and whole blood were established with good linear correlation in the range 1-500 pg mL . The limits of detection and quantification for PFBSK were as low as 0.04 pg mL and 0.05 pg mL , respectively, which are comparable or better than the existing methods for the determination of PFSs. An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective enrichment and sensitive determination of perfluorinated sulfonate (PFS) contaminants in a rapid and convenient manner. The good thermal stability and excellent optical absorption properties of F-iCOF makes it a brilliant matrix with no background noise. Moreover, benefitting from the large surface area, appropriate pore size, good water dispersibility, and abundant fluorine atom and cationic characteristic of F-iCOF, it exhibited superior adsorption capacity and enrichment selectivity towards PFSs. Good signal responses for PFSs were obtained in the presence of various interfering compounds such as BSA, HA, or even more than 100-fold excess of glutamic acid and similar in structure sodium alkyl sulfonates, highlighting the specific selectivity of F-iCOF. Calibration curves for potassium perflurobutane sulfonate (PFBSK) in tap water and whole blood were established with good linear correlation in the range 1–500 pg mL −1 . The limits of detection and quantification for PFBSK were as low as 0.04 pg mL −1 and 0.05 pg mL −1 , respectively, which are comparable or better than the existing methods for the determination of PFSs. Graphical Abstract An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective enrichment and sensitive determination of perfluorinated sulfonate (PFS) contaminants in a rapid and convenient manner. The good thermal stability and excellent optical absorption properties of F-iCOF makes it a brilliant matrix with no background noise. Moreover, benefitting from the large surface area, appropriate pore size, good water dispersibility, and abundant fluorine atom and cationic characteristic of F-iCOF, it exhibited superior adsorption capacity and enrichment selectivity towards PFSs. Good signal responses for PFSs were obtained in the presence of various interfering compounds such as BSA, HA, or even more than 100-fold excess of glutamic acid and similar in structure sodium alkyl sulfonates, highlighting the specific selectivity of F-iCOF. Calibration curves for potassium perflurobutane sulfonate (PFBSK) in tap water and whole blood were established with good linear correlation in the range 1-500 pg mL.sup.-1. The limits of detection and quantification for PFBSK were as low as 0.04 pg mL.sup.-1 and 0.05 pg mL.sup.-1, respectively, which are comparable or better than the existing methods for the determination of PFSs. Graphical An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective enrichment and sensitive determination of perfluorinated sulfonate (PFS) contaminants in a rapid and convenient manner. The good thermal stability and excellent optical absorption properties of F-iCOF makes it a brilliant matrix with no background noise. Moreover, benefitting from the large surface area, appropriate pore size, good water dispersibility, and abundant fluorine atom and cationic characteristic of F-iCOF, it exhibited superior adsorption capacity and enrichment selectivity towards PFSs. Good signal responses for PFSs were obtained in the presence of various interfering compounds such as BSA, HA, or even more than 100-fold excess of glutamic acid and similar in structure sodium alkyl sulfonates, highlighting the specific selectivity of F-iCOF. Calibration curves for potassium perflurobutane sulfonate (PFBSK) in tap water and whole blood were established with good linear correlation in the range 1-500 pg mL-1. The limits of detection and quantification for PFBSK were as low as 0.04 pg mL-1 and 0.05 pg mL-1, respectively, which are comparable or better than the existing methods for the determination of PFSs.An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective enrichment and sensitive determination of perfluorinated sulfonate (PFS) contaminants in a rapid and convenient manner. The good thermal stability and excellent optical absorption properties of F-iCOF makes it a brilliant matrix with no background noise. Moreover, benefitting from the large surface area, appropriate pore size, good water dispersibility, and abundant fluorine atom and cationic characteristic of F-iCOF, it exhibited superior adsorption capacity and enrichment selectivity towards PFSs. Good signal responses for PFSs were obtained in the presence of various interfering compounds such as BSA, HA, or even more than 100-fold excess of glutamic acid and similar in structure sodium alkyl sulfonates, highlighting the specific selectivity of F-iCOF. Calibration curves for potassium perflurobutane sulfonate (PFBSK) in tap water and whole blood were established with good linear correlation in the range 1-500 pg mL-1. The limits of detection and quantification for PFBSK were as low as 0.04 pg mL-1 and 0.05 pg mL-1, respectively, which are comparable or better than the existing methods for the determination of PFSs. An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective enrichment and sensitive determination of perfluorinated sulfonate (PFS) contaminants in a rapid and convenient manner. The good thermal stability and excellent optical absorption properties of F-iCOF makes it a brilliant matrix with no background noise. Moreover, benefitting from the large surface area, appropriate pore size, good water dispersibility, and abundant fluorine atom and cationic characteristic of F-iCOF, it exhibited superior adsorption capacity and enrichment selectivity towards PFSs. Good signal responses for PFSs were obtained in the presence of various interfering compounds such as BSA, HA, or even more than 100-fold excess of glutamic acid and similar in structure sodium alkyl sulfonates, highlighting the specific selectivity of F-iCOF. Calibration curves for potassium perflurobutane sulfonate (PFBSK) in tap water and whole blood were established with good linear correlation in the range 1–500 pg mL−1. The limits of detection and quantification for PFBSK were as low as 0.04 pg mL−1 and 0.05 pg mL−1, respectively, which are comparable or better than the existing methods for the determination of PFSs.
ArticleNumber	442
Audience	Academic
Author	Zhao, Meng-Ge Chen, Chang-Po Liu, Xiao-Pan Liu, Li-Hong Sun, Wen-Qian Zhang, Xing-Jie
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Keywords	MALDI-TOF MS Fluoro-functionalized ionic covalent organic frameworks Matrix and highly selective adsorbent Perfluorinated sulfonates
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Snippet	An easily prepared fluoro-functionalized ionic covalent organic framework (F-iCOF) has been implemented into MALDI-TOF MS, enabling the highly selective...
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SubjectTerms	Adsorption Alkanesulfonates Analytical Chemistry Background noise Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Contaminants Drinking water Enrichment Fluorine Glutamic acid Ions Metal-Organic Frameworks - chemistry Microengineering Nanochemistry Nanotechnology Optical properties Original Paper Pore size Selectivity Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization - methods Sulfonates Thermal stability Water - chemistry
Title	Fluoro-functionalized ionic covalent organic frameworks (F-iCOFs) for highly selective enrichment and sensitive determination of perfluorinated sulfonates by MALDI-MS
URI	https://link.springer.com/article/10.1007/s00604-022-05542-9 https://www.ncbi.nlm.nih.gov/pubmed/36342547 https://www.proquest.com/docview/2733397397 https://www.proquest.com/docview/2733205483
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