Vortex-Assisted Deep Eutectic Solvent-Based Liquid-Liquid Microextraction for the Analysis of Alkyl Gallates in Vegetable Oils

Çabuk, Hasan; Yılmaz, Yasemin; Yıldız, Elif

doi:10.17344/acsi.2018.4877

Cited by 31 publications

(13 citation statements)

References 41 publications

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“…The FTIR spectrum of the prepared DES showed the formation of new bonds at 1668.38 and 1624.66 cm −1 compared to the FTIR spectra of pure urea, glycerol, and ChCl. The C=O linkage frequency peak at 1677 cm −1 of urea was shifted to lower side at 1668 cm −1 , indicating the formation of more hydrogen bonds, and the N–H stretching frequency of urea at 3427.12 cm −1 was masked by the O–H stretching peak [ 42 ]. The C–O stretching peak of glycerol at 1043.55 cm −1 was also shifted to higher wavenumber in the DES, indicating the successful formation of DES.…”

Section: Resultsmentioning

confidence: 99%

Progressing Ultragreen, Energy-Efficient Biobased Depolymerization of Poly(ethylene terephthalate) via Microwave-Assisted Green Deep Eutectic Solvent and Enzymatic Treatment

Attallah

Azeem²,

Nikolaivits

et al. 2021

Polymers

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Effective interfacing of energy-efficient and biobased technologies presents an all-green route to achieving continuous circular production, utilization, and reproduction of plastics. Here, we show combined ultragreen chemical and biocatalytic depolymerization of polyethylene terephthalate (PET) using deep eutectic solvent (DES)-based low-energy microwave (MW) treatment followed by enzymatic hydrolysis. DESs are emerging as attractive sustainable catalysts due to their low toxicity, biodegradability, and unique biological compatibility. A green DES with triplet composition of choline chloride, glycerol, and urea was selected for PET depolymerization under MW irradiation without the use of additional depolymerization agents. Treatment conditions were studied using Box-Behnken design (BBD) with respect to MW irradiation time, MW power, and volume of DES. Under the optimized conditions of 20 mL DES volume, 260 W MW power, and 3 min MW time, a significant increase in the carbonyl index and PET percentage weight loss was observed. The combined MW-assisted DES depolymerization and enzymatic hydrolysis of the treated PET residue using LCC variant ICCG resulted in a total monomer conversion of ≈16% (w/w) in the form of terephthalic acid, mono-(2-hydroxyethyl) terephthalate, and bis-(2-hydroxyethyl) terephthalate. Such high monomer conversion in comparison to enzymatically hydrolyzed virgin PET (1.56% (w/w)) could be attributed to the recognized depolymerization effect of the selected DES MW treatment process. Hence, MW-assisted DES technology proved itself as an efficient process for boosting the biodepolymerization of PET in an ultrafast and eco-friendly manner.

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Section: Resultsmentioning

confidence: 99%

Progressing Ultragreen, Energy-Efficient Biobased Depolymerization of Poly(ethylene terephthalate) via Microwave-Assisted Green Deep Eutectic Solvent and Enzymatic Treatment

Attallah

Azeem²,

Nikolaivits

et al. 2021

Polymers

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“…Hassasiyeti arttırmak için, ekstraksiyon çözücüsünün hacmini mümkün olduğunca düşük tutmak önemlidir. Bununla birlikte, çözücü hacmini istenen şekilde azaltmak her zaman mümkün değildir, çünkü kromatografik analiz için santrifüjlemeden sonra yeterli hacimde çözücünün toplanması gerekir [14]. Çözücü hacmi için optimal miktarı bulmak amacıyla, 200, 300 ve 400 µL farklı solvent hacimlerini içeren deneyler, aynı ekstraksiyon koşulları altında gerçekleştirilerek elde edilen sonuçlar Şekil 5'te verilmiştir.…”

Section: -çöZücü Hacminin Geri Kazanım üZerine Etkisiunclassified

Endosülfan ve Metabolitlerinin Su Örneklerinde Vorteks Destekli Sıvı-Sıvı Mikro Ekstraksiyon ve Yüksek Performanslı Sıvı Kromatografi Kullanılarak Analizi

Türkyılmaz

Küçükçongar

2021

Bitlis Eren Üniversitesi Fen Bilimleri Dergisi

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ÖzEndosülfan doğal yollarla bozunmaya karşı mukavemetinin yüksek oluşu, canlılarda biyobirikim özelliği ve çevresel taşınımı nedeniyle, yasal kullanımlarının durdurulması sonrasında bile çevresel numunelerde tayin edilebilmektedir. Bununla birlikte endosülfan daha yüksek toksisiteye sahip ana metabolitlerine parçalanabilmektedir. Bu durum çevre ve halk sağlığı açısından risk oluşturabilmektedir. Bu nedenle endosülfan kaynaklarının ve giderim yöntemlerinin belirlenmesinde endosülfan ve metabolitlerinin birlikte analiz edilmesi önemlidir. Bu çalışmada endosülfan ve metabolitlerinin birlikte analizlerinin yapılmasında vorteks destekli sıvısıvı mikroekstraksiyon (VALLME) ve sıvı kromatografi analizi yöntemi uygulanarak geri kazanım çalışmalarının optimizasyonu yapılmıştır. Endosülfan izomerlerinin ve metabolitlerinin ayrılması ve saptanması için GL science C18 reversed phase kolon ve UV/VIS/PDA ikili absorbans detektörü içeren Shimatzu Prominence-i 2030-3d sıvı kromatograf cihazı kullanılmıştır. 1 mL/dk akış hızında asetonitril:su karışımı (70:30, v:v) mobil faz olarak kullanılmıştır. Endosülfan lakton, endosülfan sülfat, endosülfan eter, β-endosülfan ve α-endosülfan, sırasıyla 214 nm'de kolonda tutulma sürelerine göre belirlenmiştir. Yüksek Performanslı Sıvı Kromatografi (HPLC) analizinden sonra en iyi kromatogram n-hekzan solventi ile elde edilmiş; bu nedenle bu solvent için en yüksek geri kazanım değerlerinin elde edilmesinde numune hacminin, solvent hacminin ve ekstraksiyon süresinin etkileri deneysel olarak araştırılmış ve değişkenler için optimal koşullar sırasıyla 10 mL, 200 µL ve 3 dakika olarak elde edilmiştir. Optimum koşullar altında, endosülfan lakton, endosülfan sülfat, endosülfan eter, β-endosülfan ve α-endosülfan için geri kazanım oranları sırasıyla %115.31, %91.1, %96.79, %103.06 ve %99.06 olarak belirlenmiştir. Bu çalışmada elde edilen sonuçların diğer kalıcı kirleticilerin ve metabolitlerinin de eş zamanlı tayini ve çevresel matrislerde izlenmesi konusundaki çalışmalara katkı sağlayacağı düşünülmektedir.

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“…eutectic solvents in the development of analytical methods. Specifically in the analysis of oils, the eutectic solvents have been used in the quantification of hexanal and heptanal [152], alkyl gallated [153], oxyprenylated phenylpropanoids [154], ferulic, caffeic and cinnamic acids [155], sesamol [156], tert-butylhydroquinone [157][158][159], chlorophenol, 2,3-dihydroxybenzoic acid, p-cresol, 4chlorophenol, 2,4-dichlorophenol and 2,4,6-trichlorophenol [160] and bisphenol A [161]. The eutectic solvents have been also applied in analytical methods to quantify organic compounds in tea, fruit juices and milk.…”

Section: General Overview Of the Use Of Eutectic Solvents In The Deve...mentioning

confidence: 99%

“…In the analysis of food and drinks, the eutectic solvents have been applied in the quantification of As seen, the determination of organic compounds in food is the most relevant application of eutectic solvents in the development of analytical methods. Specifically in the analysis of oils, the eutectic solvents have been used in the quantification of hexanal and heptanal [152], alkyl gallated [153], oxyprenylated phenylpropanoids [154], ferulic, caffeic and cinnamic acids [155], sesamol [156], tert-butylhydroquinone [157][158][159], chlorophenol, 2,3-dihydroxybenzoic acid, p-cresol, 4-chlorophenol, 2,4-dichlorophenol and 2,4,6-trichlorophenol [160] and bisphenol A [161].…”

Section: General Overview Of the Use Of Eutectic Solvents In The Deve...mentioning

confidence: 99%

A Review of the Use of Eutectic Solvents, Terpenes and Terpenoids in Liquid–liquid Extraction Processes

et al. 2020

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Diverse and abundant applications of the eutectic solvents have appeared in the last years. Their promising tunable properties, eco-friendly character and the possibility of being prepared from numerous compounds have led to the publication of numerous papers addressing their use in different areas. Terpenes and terpenoids have been employed in the formulation of eutectic solvents, though they also have been applied as solvents in extraction processes. For their hydrophobic nature, renewable character, low environmental impact, cost and being non-hazardous, they have also been proposed as possible substitutes of conventional solvents in the separation of organic compounds from aqueous streams, similarly to hydrophobic eutectic solvents. The present work reviews the application of eutectic solvents in liquid–liquid extraction and terpenes and terpenoids in extraction processes. It has been made a research in the current state-of-the-art in these fields, describing the proposed applications of the solvents. It has been highlighted the scale-up feasibility, solvent regeneration and reuse procedures and the comparison of the performance of eutectic solvents, terpenes and terpenoids in extraction with conventional organic solvents or ionic liquids. Ultimately, it has been also discussed the employ of predictive methods in extraction, the reliability of thermodynamic models in correlation of liquid–liquid equilibria and simulation of liquid–liquid extraction processes.

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Vortex-Assisted Deep Eutectic Solvent-Based Liquid-Liquid Microextraction for the Analysis of Alkyl Gallates in Vegetable Oils

Cited by 31 publications

References 41 publications

Progressing Ultragreen, Energy-Efficient Biobased Depolymerization of Poly(ethylene terephthalate) via Microwave-Assisted Green Deep Eutectic Solvent and Enzymatic Treatment

Progressing Ultragreen, Energy-Efficient Biobased Depolymerization of Poly(ethylene terephthalate) via Microwave-Assisted Green Deep Eutectic Solvent and Enzymatic Treatment

Endosülfan ve Metabolitlerinin Su Örneklerinde Vorteks Destekli Sıvı-Sıvı Mikro Ekstraksiyon ve Yüksek Performanslı Sıvı Kromatografi Kullanılarak Analizi

A Review of the Use of Eutectic Solvents, Terpenes and Terpenoids in Liquid–liquid Extraction Processes

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