Kinetics and modeling of (R,S)‐1‐phenylethanol acylation over lipase

Кирилин, А. Д.; Sahin, Serap; Mäki‐Arvela, Päivi; Wärnå, Johan; Salmi, Tapio; Murzin, Dmitry Yu.

doi:10.1002/kin.20504

Cited by 10 publications

(12 citation statements)

References 36 publications

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“…The modeling was performed by using ModEst software, written in Fortran 90. The system of ordinary different equations were solved out by the ODESSA algorithm, which is a package of Fortran routines based on backward difference method…”

Section: Resultsmentioning

confidence: 99%

Influence of ring‐opening reactions on the kinetics of cottonseed oil epoxidation

Cai

Zheng

Aguilera

et al. 2018

Int J of Chemical Kinetics

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Production of epoxidized vegetable oils becomes more and more important because they are renewable, nontoxic, and biodegradable chemicals. At the industrial scale, the Prileschajew oxidation is used to produce epoxidized vegetable oils from the corresponding vegetable oils. This oxidation uses an oxygen carrier, which is a percarboxylic acid produced in situ in the aqueous phase, to epoxidize the unsaturated groups on the vegetable oils. One of the main drawbacks of this method is the presence of side reactions: ring-opening reactions of the epoxide group. To minimize the ringopening reactions and to find the most suitable reactor configuration, it is essential to investigate deeply the different ring-opening reactions.For this work, epoxidation of cottonseed oil by peracetic acid in a batch reactor was studied. By developing a suitable modeling strategy, the kinetic constants for the ringopening reactions by water, hydrogen peroxide and acetic and peracetic acids were estimated. It was found that ring opening by acetic and peracetic acids was faster than by water and hydrogen peroxide. Based on this model, it was found that a semibatch reactor where hydrogen peroxide and sulfuric acid were added is the most suitable configuration. K E Y W O R D Sepoxidation, kinetic modeling, liquid-liquid reaction system, parameter estimation 726

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Section: Resultsmentioning

confidence: 99%

Influence of ring‐opening reactions on the kinetics of cottonseed oil epoxidation

Cai

Zheng

Aguilera

et al. 2018

Int J of Chemical Kinetics

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“…Bu çalışmada, açil verici olarak vinil asetat kullanılmıştır. Çünkü vinil asetat kullanılması durumunda reaksiyon esnasında oluşan kararsız yan ürün, vinil alkol, keto-enol totomerizasyonu ile hızla asetaldehite dönüştüğünden reaksiyon tersinmez hale gelir [8,14,37]. Çalışmada molar açil verici : substrat oranının ees ve dönüşüme etkisi incelenmiş ve elde edilen sonuçlar Şekil 3'te verilmiştir.…”

Section: Reaksiyona Etki Eden Parametrelerinunclassified

Yeşil Çözücü Ortamında Enzimatik Kinetik Rezolüsyon Yöntemi ile Enantiyomerik Saflıkta 1-Feniletanol Üretimi

2024

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Bu çalışmada rasemik 1-feniletanolün yeşil çözücü ortamında, Novozyme 435 lipazı varlığında kinetik rezolüsyonu gerçekleştirilmiştir. Yeşil çözücü olarak propilen karbonat (PK), dimetil karbonat (DMK) ve 2-metiltetrahidrofuran (MeTHF) kullanılmış, en uygun sonuçlar DMK ortamında sağlanmıştır. / In this work, the kinetic resolution of racemic 1-phenylethanol was performed in green solvent media by using Novozyme 435 lipase. Propylene carbonate (PC), dimethyl carbonate (DMC) and 2-methyltetrahydrofuran (MeTHF) were used as green solvents and best results were obtained with DMC. Şekil. Yeşil çözücü ortamında enantiyomerik saflıkta 1-feniletanol üretimi /Figure. Production of enantiomerically pure 1-phenylethanol in green solvent media Amaç (Aim) Bu çalışmada, rasemik 1-feniletanolün enzimatik kinetik rezolüsyonunun farklı yeşil çözücü ortamlarında gerçekleştirilmesi ve bu reaksiyonda geleneksel çözücülerin yerini alabilecek bir yeşil çözücü tespit edilmesi amaçlanmıştır. / In this work, it was aimed to perform the enzymatic kinetic resolution of racemic 1-phenylethanol in different green solvents and to determine a green solvent in order to replace with the traditional solvents. Tasarım ve Yöntem (Design &Methodology) Reaksiyon cam biyoreaktörde, orbital çalkalıyıcıda gerçekleştirilmiş olup numuneler HPLC ile analizlenmiştir. / Reactions were performed in a glass bioreactor, inside an orbital shaker. Samples were analyzed with HPLC. Özgünlük (Originality) Bu çalışmada, "en yeşil çözücülerden biri" olarak nitelendirilen DMK rasemik 1-feniletanolün enzimatik kinetik rezolüsyonunda ilk kez çözücü ortamı olarak kullanılmıştır. / In this work, DMC, which is defined as "among the greenest solvents" was used as a solvent media for the first time in the enzymatic kinetic resolution of racemic 1-phenylethanol. Bulgular (Findings) Kullanılan yeşil çözücüler arasından en iyi sonuçlar DMK ile sağlanmıştır. / Among the green solvents, best results were obtained with DMC. Sonuç (Conclusion) DMK'nın yeşil çözücü özelliklerinin yanı sıra yüksek enantiyomerik aşırılık ve dönüşüm sağlaması neticesinde geleneksel çözücülerin yerine geçebileceği anlaşılmıştır. / It was understood that DMC can be replaced with the traditional solvents considering high enantiomeric excess and conversion values obtained besides its green solvent properties. Etik Standartların Beyanı(Declaration of Ethical Standards) Bu makalenin yazar(lar)ı çalışmalarında kullandıkları materyal ve yöntemlerin etik kurul izni ve/veya yasal-özel bir izin gerektirmediğini beyan ederler. / The author(s) of this article declare that the materials and methods used in this study do not require ethical committee permission and/or legal-special permission.

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“…In many regards, vinyl acetate (VAc) is an acyl donor of first choice for lipase‐catalysed transesterification reactions, because the leaving group is an enol that immediately tautomerises to acetaldehyde, thereby driving the reaction in a forward direction so that a high conversion rate can be achieved 15. More recently, the combination of lipase‐catalysed transesterification with VAc as an acyl donor has exhibited high acetylation rates in the synthesis of ( R , S )‐1‐phenylethyl acetate 16, 17. Therefore in this study we chose VAc as the acyl donor for lipase‐catalysed synthesis of 2‐PEAc.…”

Section: Introductionmentioning

confidence: 99%