Iron oxide functionalized graphene oxide as an efficient sorbent for dispersive micro-solid phase extraction of sulfadiazine followed by spectrophotometric and mode-mismatched thermal lens spectrometric determination

A simple and rapid dispersive micro-solid phase extraction (DMSPE) combined with mode-mismatched thermal lens spectrometry as well as fiber optic linear array spectrophotometry was developed for the separation, extraction and determination of sulfadiazine. Graphene oxide was synthesized using the mo...

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Published in:Talanta (Oxford) 2016-01, Vol.147, p.561-568
Main Authors: Kazemi, Elahe, Dadfarnia, Shayessteh, Haji Shabani, Ali Mohammad, Abbasi, Amir, Rashidian Vaziri, Mohammad Reza, Behjat, Abbas
Format: Article
Language:English
Subjects:
Adsorption
Animals
Anti-Infective Agents - analysis
Anti-Infective Agents - chemistry
Azo Compounds - chemistry
Diazotization
Dispersive micro-solid-phase extraction
Environmental Pollutants - analysis
Environmental Pollutants - chemistry
Ferrosoferric Oxide - chemistry
Food Contamination - analysis
Graphite - chemistry
Groundwater - analysis
Honey - analysis
Iron oxide functionalized graphene oxide
Microscopy, Electron, Scanning
Milk - chemistry
Mode-mismatched thermal lens spectrometry
Oxides - chemistry
Rivers - chemistry
Solid Phase Microextraction
Spectrum Analysis - methods
Sulfadiazine
Sulfadiazine - analysis
Sulfadiazine - chemistry
Thenoyltrifluoroacetone - chemistry
X-Ray Diffraction
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description A simple and rapid dispersive micro-solid phase extraction (DMSPE) combined with mode-mismatched thermal lens spectrometry as well as fiber optic linear array spectrophotometry was developed for the separation, extraction and determination of sulfadiazine. Graphene oxide was synthesized using the modified Hummers method and functionalized with iron oxide nanoparticles by means of a simple one step chemical coprecipitation method. The synthesized iron oxide functionalized graphene oxide was utilized as an efficient sorbent in DMSPE of sulfadiazine. The retained analyte was eluted by using 180µL of a 6:4 mixture of methanol/acetic acid solution and was spectrophotometrically determined based on the formation of an azo dye through coupling with thenoyltrifluoroacetone. Under the optimized conditions, with the application of spectrophotometry technique and with a sample volume of 100mL, the method exhibited a linear dynamic range of 3–80µgL−1 with a detection limit of 0.82µgL−1, an enrichment factor of 200 as well as the relative standard deviations of 2.6% and 4.3% (n=6) at 150µgL−1 level of sulfadiazine for intra- and inter-day analyses, respectively. Whereas, through the application of the thermal lens spectrometry and a sample volume of 10mL, the method exhibited a linear dynamic range of 1–800µgL−1 with a detection limit of 0.34µgL−1 and the relative standard deviations of 3.1% and 5.4% (n=6) at 150µgL−1 level of sulfadiazine for intra- and inter-day analyses, respectively. The method was successfully applied to the determination of sulfadiazine in milk, honey and water samples. A simple, rapid and efficient dispersive micro-solid phase extraction (DMSPE) using iron oxide functionalized graphene oxide combined with mode-mismatched thermal lens spectrophotometry as well as fiber optic linear array spectrophotometry was developed for separation, extraction and determination of sulfadiazine. [Display omitted] •First application of graphene oxide@Fe3O4 in DMSPE of SD.•Development of a simple/sensitive spectrophotometric method for determination of SD.•Application of a novel coupling agent for formation of an azo dye with SD.•Application of homemade mode-mismatched TLS for quantification of the SD.•The method is rapid, simple, cost effective and yield very low detection limit.
doi_str_mv 10.1016/j.talanta.2015.10.033
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Graphene oxide was synthesized using the modified Hummers method and functionalized with iron oxide nanoparticles by means of a simple one step chemical coprecipitation method. The synthesized iron oxide functionalized graphene oxide was utilized as an efficient sorbent in DMSPE of sulfadiazine. The retained analyte was eluted by using 180µL of a 6:4 mixture of methanol/acetic acid solution and was spectrophotometrically determined based on the formation of an azo dye through coupling with thenoyltrifluoroacetone. Under the optimized conditions, with the application of spectrophotometry technique and with a sample volume of 100mL, the method exhibited a linear dynamic range of 3–80µgL−1 with a detection limit of 0.82µgL−1, an enrichment factor of 200 as well as the relative standard deviations of 2.6% and 4.3% (n=6) at 150µgL−1 level of sulfadiazine for intra- and inter-day analyses, respectively. Whereas, through the application of the thermal lens spectrometry and a sample volume of 10mL, the method exhibited a linear dynamic range of 1–800µgL−1 with a detection limit of 0.34µgL−1 and the relative standard deviations of 3.1% and 5.4% (n=6) at 150µgL−1 level of sulfadiazine for intra- and inter-day analyses, respectively. The method was successfully applied to the determination of sulfadiazine in milk, honey and water samples. A simple, rapid and efficient dispersive micro-solid phase extraction (DMSPE) using iron oxide functionalized graphene oxide combined with mode-mismatched thermal lens spectrophotometry as well as fiber optic linear array spectrophotometry was developed for separation, extraction and determination of sulfadiazine. 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Whereas, through the application of the thermal lens spectrometry and a sample volume of 10mL, the method exhibited a linear dynamic range of 1–800µgL−1 with a detection limit of 0.34µgL−1 and the relative standard deviations of 3.1% and 5.4% (n=6) at 150µgL−1 level of sulfadiazine for intra- and inter-day analyses, respectively. The method was successfully applied to the determination of sulfadiazine in milk, honey and water samples. A simple, rapid and efficient dispersive micro-solid phase extraction (DMSPE) using iron oxide functionalized graphene oxide combined with mode-mismatched thermal lens spectrophotometry as well as fiber optic linear array spectrophotometry was developed for separation, extraction and determination of sulfadiazine. [Display omitted] •First application of graphene oxide@Fe3O4 in DMSPE of SD.•Development of a simple/sensitive spectrophotometric method for determination of SD.•Application of a novel coupling agent for formation of an azo dye with SD.•Application of homemade mode-mismatched TLS for quantification of the SD.•The method is rapid, simple, cost effective and yield very low detection limit.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>26592647</pmid><doi>10.1016/j.talanta.2015.10.033</doi><tpages>8</tpages></addata></record>
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subjects Adsorption
Animals
Anti-Infective Agents - analysis
Anti-Infective Agents - chemistry
Azo Compounds - chemistry
Diazotization
Dispersive micro-solid-phase extraction
Environmental Pollutants - analysis
Environmental Pollutants - chemistry
Ferrosoferric Oxide - chemistry
Food Contamination - analysis
Graphite - chemistry
Groundwater - analysis
Honey - analysis
Iron oxide functionalized graphene oxide
Microscopy, Electron, Scanning
Milk - chemistry
Mode-mismatched thermal lens spectrometry
Oxides - chemistry
Rivers - chemistry
Solid Phase Microextraction
Spectrum Analysis - methods
Sulfadiazine
Sulfadiazine - analysis
Sulfadiazine - chemistry
Thenoyltrifluoroacetone - chemistry
X-Ray Diffraction
title Iron oxide functionalized graphene oxide as an efficient sorbent for dispersive micro-solid phase extraction of sulfadiazine followed by spectrophotometric and mode-mismatched thermal lens spectrometric determination
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