مروری بر روشهای پوششدهی پلیمرهای زیست سازگار و جدید در فن حساس و سریع میکرواستخراج فیلم نازک
الموضوعات :
1 - گروه شیمی
الکلمات المفتاحية: میکرو استخراج فیلم نازک, پلیمرهای زیستسازگار, دستگاه طیفسنج جرمی, فازهای استخراجی جدید,
ملخص المقالة :
میکرو استخراج فیلم نازک، روش استخراجی مناسبی است که کارآیی آن در روشهای روزمره مثل نمونهگیری و آماده سازی نمونهها اثبات شده است. در مقایسه با روشهای استخراج سنتی، مهم ترین مزیت میکرواستخراج فیلم نازک، حساسیت زیاد (به دلیل فاز استخراج کننده نسبتاً بزرگ تر) آن است. علاوه بر این، روش میکرواستخراج فیلم نازک نسبت به روش سنتی میکرواستخراج فاز جامد، فازهای استخراجی بیشتر، روشهای پوششدهی بهتر و روشهای به کارگیری متنوعتری را ارائه میدهد. هدف از این بررسی، ارائه خلاصهای جامع و کامل از پیشرفتهای معاصر شامل سنتز فازهای استخراجی جدید بر پایه پلیمرهای زیست سازگار، تحولات این فناوری، روش شناسایی و کاربردهای این روش است. در نهایت، درباره روند روبه رشد میکرواستخراج فیلم نازک در آینده نیز بحث خواهد شد.
1. Wilcockson J.B., Gobas F.A.P., Thin-Film Solid-Phase Extraction to Measure Fugacities of Organic Chemicals with Low Volatility in Biological Samples, Environ. Sci. Technol., 35, 1425-1431, 2001.
2. Bruheim I., Liu X., Pawliszyn J., Thin-Film Microextraction, Anal. Chem., 75, 1002-1010, 2003.
3. Gómez-Ríos G.A., Gionfriddo E., Poole J., Pawliszyn J., Ultrafast Screening and Quantitation of Pesticides in Food and Environmental Matrices by Solid-Phase Microextraction–Transmission Mode (SPME-TM) and Direct Analysis in Real Time (DART), Anal. Chem., 89, 7240-7248, 2017.
4. Piri-Moghadam H., Gionfriddo E., Rodriguez-Lafuente A., Grandy J.J., Lord H.L., Obal T., Pawliszyn J., Inter-Laboratory Validation of a Thin Film Microextraction Technique for Determination of Pesticides in Surface Water Samples, Anal. Chim. Acta, 964, 74-8, 2017.
5. Kirschner N., Dias A. N., Budziak D., da Silveira C. B., Merib J., Carasek E., Novel Approach to High Throughput Determination Of Endocrine Disruptors Using Recycled Diatomaceous Earth as a Green Sorbent Phase for Thin-Film Solid-Phase Microextraction Combined with 96-Well Plate System, Anal. Chim. Acta, 996, 29-37, 2017.
6. Gomez-Rios G. A., Tascon M., Reyes-Garces N., Boyaci E., Poole J., Pawliszyn J., Quantitative Analysis of Biofluid Spots by Coated Blade Spray Mass Spectrometry, A New Approach to Rapid Screening, Sci Rep, 7, 7-14, 2017.
7. Fedick P. W., Bills B. J., Manicke N. E., Cooks R. G., Forensic Sampling and Analysis from a Single Substrate: Surface-Enhanced Raman Spectroscopy Followed by Paper Spray Mass Spectrometry, Anal. Chem., 89, 10973-10979, 2017.
8. Zargar T., Khayamian T., Jafari M. T., Aptamer-Modified Carbon Nanomaterial Based Sorption Coupled to Paper Spray Ion Mobility Spectrometry for Highly Sensitive and Selective Determination of Methamphetamine, Microchim. Acta, 185, 9-15, 2018.
9. Piri-Moghadam H., Gionfriddo E., Grandy J. J., Alam M. N., Pawliszyn J., Development and Validation of Eco-Friendly Strategies Based on Thin Film Microextraction for Water Analysis, Journal of Chromatography A, 1579, 20-30, 2018.
10. Rios-Gomez J., Lucena R., Cardenas S., Paper Supported Polystyrene Membranes for Thin Film Microextraction, Microchem J., 133, 90-95, 2017.
11. Saraji M., Mehrafza N., Phenyl Carbamate Functionalized Zinc Oxide Nanorods For Paper-Based Thin Film Microextraction, RSC Adv., 7, 50210-50215, 2017.
12. Greiner A., Wendorff J. H., Electrospinning: A Fascinating Method for the Preparation of Ultrathin Fibers, Angewandte Chemie International Edition, 46, 5670-5703, 2007.
13. Liu F. L., Xu H., Development of a Novel Polystyrene/Metal-Organic Framework-199 Electrospun Nanofiber Adsorbent for Thin Film Microextraction of Aldehydes in Human Urine, Talanta, 162, 261-267, 2017.
14. Zhang H.F., Hu S., Song D.D., Xu H., Polydopamine-Sheathed Electrospun Nanofiber as Adsorbent for Determination of Aldehydes Metabolites in Human Urine, Anal. Chem. Acta, 943, 74-81, 2016.
15. Reyes-Garces N., Gionfriddo E., Gomez-Rios G. A., Alam M. N., Boyaci E., Bojko B., Singh V., Grandy J., Pawliszyn J., Advances in Solid Phase Microextraction and Perspective on Future Directions, Anal. Chem., 90, 302-360, 2018.
16. Gionfriddo E., Boyacı E., Pawliszyn J., New Generation of Solid-Phase Microextraction Coatings for Complementary Separation Approaches: A Step toward Comprehensive Metabolomics and Multiresidue Analyses in Complex Matrices, Anal. Chem., 89, 4046-4054, 2017. 17. PAL System, Ingenious sample handling, https://www.palsystem.com/htm available in 17, September 2020.
18. Mirnaghi F. S., Pawliszyn J., Development of Coatings for Automated 96-Blade Solid Phase Microextraction-Liquid Chromatography–Tandem Mass Spectrometry System, Capable of Extracting a Wide Polarity Range of Analytes From Biological Fluids, J. Chromatogr. A, 1261, 91-98, 2012.
19. Vuckovic D., Cudjoe E., Musteata F. M., Pawliszyn J., Automated Solid-Phase Microextraction and Thin-Film Microextraction for High-Throughput Analysis of Biological Fluids and Ligand–Receptor Binding Studies, Nature Protocols, 5, 140-148, 2010.
20. Birjandi A. P., Bojko B., Ning Z., Figeys D., Pawliszyn J., High Throughput Solid Phase Microextraction: A New Alternative for Analysis of Cellular Lipidome? J. Chromatogr. B, 1043, 12-19, 2017.
21. Gómez-Ríos G. A., Pawliszyn J., Development of Coated Blade Spray Ionization Mass Spectrometry for the Quantitation of Target Analytes Present in Complex Matrices, Angewandte Chemie International Edition, 53, 14503-14507, 2014.
22. Strittmatter N., Düring R. A., Takáts Z., Analysis of Wastewater Samples By Direct Combination of Thin-Film Microextraction and Desorption Electrospray Ionization Mass Spectrometry, Analyst, 137, 4037-4044, 2012.
23. Gómez-Ríos G. A., Tascon M., Pawliszyn J., Coated Blade Spray: Shifting the Paradigm of Direct Sample Introduction to MS, Bioanalysis, 10, 257-271, 2018.
24. Huang S., Xu J., Tao X., Chen X., Zhu F., Wang Y., Jiang R., Ouyang G., Fabrication of Polyaniline/Silver Composite Coating as a Dual-Functional Platform for Microextraction and MatrixFree Laser Desorption/Ionization, Talanta, 172, 155-161, 2017.
25. Piri-Moghadam H., Gionfriddo E., Rodriguez-Lafuente A., Grandy J. J., Lord H. L., Obal T., Pawliszyn J., Inter-laboratory Validation of a Thin Film Microextraction Technique for Determination of Pesticides in Surface Water Samples. Analytica chimica acta, 964, 74-84, 2017.
26. Toudeshki R. M., Shabani A. M. H., Dadfarnia S., Hollow Fiber Reinforced with Molecularly Imprinted Polymer Supported on Multiwalled Carbon Nanotubes for Microextraction of Furazolidone in Real Samples Prior to Its Spectrophotometric Determination. J. Iran. Chem. Soc., 425, 1-8, 2019.
27. Mehrani Z., Ebrahimzadeh H., Moradi E., Poly m-aminophenol/nylon 6/graphene Oxide Electrospun Nanofiber as an Efficient Sorbent for Thin Film Microextraction of Phthalate Esters in Water and Milk Solutions Preserved in Baby Bottle. J. Chromatogr. A, 1600, 87-94, 2019.
28. Najafi Ghamat S., Talebpour Z., A Vinylpyrrolidone-based Thin Film Microextraction in Combination with Direct Solid-State Spectro fluorimetry for Determination of Sartans in Human Plasma, Analytica Chimica Acta, 1124, 146-155, 2020.