Binding profiles for oligoethylene glycols and oligoethylene glycol monomethyl ethers and an assessment of their abilities to catalyze phase-transfer reactions

Gokel, George W.; Goli, Deepa M.; Schultz, Rose Ann

doi:10.1021/jo00165a011

Cited by 62 publications

(34 citation statements)

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“…Thus, the initial reaction rate will then remain at a constant value when the molecular weights of the PEGs are greater than 1500. These results, obtained from the present study are in general very consistent with those of Gokel et al [10], Ugelstad and Rokstad [24] and Yamazaki et al [28].…”

Section: Resultssupporting

confidence: 94%

“…(A) Effects of the molecular weights of PEGs Gokel et al [10] conducted experiments to study the capability of forming a complex from polyethylene and the sodium cation in a methanol solution. They found that the same quantities of complex from polyethylene glycols and the sodium cation are obtained using the same amount of PEG of various molecular weights.…”

Section: Resultsmentioning

confidence: 99%

“…The capability of forming a complex from PEGs with metallic cations in a methanol solvent was discussed by many scientists [3,7,10,16,18]. Very recently, Wang and Chang [25,26] identified the reaction mechanism for synthesizing allyl phenyl ether by polyethylene glycol-400 (PEG-400) either in a homogeneous phase or in a twophase reaction using allyl chloride as the reactant and solvent.…”

Section: Introductionmentioning

confidence: 99%

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Effects of solvents and molecular weights of polyethylene glycols on the allylation of phenoxide

Wang¹,

Chang²

1993

Journal of the Chinese Institute of Engineers

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In the present study, the synthesis of allyl phenyl ether by reacting sodium phenoxide and allyl bromide using PEGs as phase transfer catalysts either in a homogeneous phase or in a two-phase reaction was studied. The reaction in a homogeneous phase was carried out using EtOH as the solvent and the reaction in a two-phase was carried out using aprotic solvents, such as dichloromethane, chlorobenzene, ethyl ether, cyclohexane and n-decane. In the homogeneous phase reaction, the effects of the molecular weights of PEGs on the initial reaction rate were investigated in detail. The aprotic properties of the PEGs were used to explain the variation in experimental results due to the use of different molecular weight PEGs. The reactivity of the reaction, which was influenced by the organic solvents in a two-phase reaction, was also examined. The effects of the polarity of the solvents, the solubility of sodium phenoxide in the organic phase and the viscosity of the solution on the two-phase reaction were employed to explain the experimental results satisfactorily. m

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Section: Resultssupporting

confidence: 94%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of solvents and molecular weights of polyethylene glycols on the allylation of phenoxide

Wang¹,

Chang²

1993

Journal of the Chinese Institute of Engineers

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“…They have a capability similar to crown ether compounds and are stable at high temperatures and in strong alkaline conditions and are, therefore, more in demand Neumann and Sasson, 1983;Li and Alper, 1986). Some researchers have compared polyethylene glycol and crown ethers (Gokel et al, 1983;Harris et al, 1982;Harris et al, 1985), polyethylene glycol and quaternary ammonium salts (Zupancic and Kokalj, 1981;Lee and Chang, 1978). Generally, crown ethers seem to be more similar to PEG than other phase transfer catalysts.…”

Section: Modifi Ed Ullmann Condensation Reaction Using Copper Salt Anmentioning

confidence: 99%

Synthesis and Analysis of Triphenylamine: A Review

Manifar

Rohani

2004

Can J Chem Eng

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In this paper, synthesis and characteristic of arylaminetype molecules, particularly triphenylamine are discussed. An overview of the physical properties and chemical characteristics of these types of molecules is provided. Different synthesis methods and mechanisms involved for the production of these molecules and their analysis by HPLC are presented. Finally, a brief HPLC are presented. Finally, a brief HPLC note about their purifi cation is presented.Dans cet article, on analyse la synthèse et la caractéris-tique des molécules de type arylamine, et particulière-ment la triphénylamine. On donne un aperçu général des propriétés physiques et des caractéris-tiques chimiques de ce type de molécules. Plusieurs méthodes et mécanismes de synthèse intervenant dans la production de ces molécules et leur analyse par HPLC sont présentés. Enfi n, leur purifi cation est brièvement décrite.

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“…Figure 1 la Although this behavior is not trivial, it can be explained if one considers the complexation ability of a crown ether in comparison to that of an oligooxye'k ylene glycol. 23 Since the crown ether is more selective and binds ions much stronger than the glycol, the phase behavior of the mixture can be explained by considering the presence of two distinct components. One is the complexed compound 5, the other is the mixture of remaining uncomplexed 2 and 5.…”

Section: Crown-5 Endo-receptors and Their Ternary Mixture With Nacf mentioning

confidence: 99%

Isomorphism within the hexagonal columnar mesophase of molecular and macromolecular self- and co-assembled columns containing tapered groups

et al. 1994

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Binding profiles for oligoethylene glycols and oligoethylene glycol monomethyl ethers and an assessment of their abilities to catalyze phase-transfer reactions

Cited by 62 publications

References 0 publications

Effects of solvents and molecular weights of polyethylene glycols on the allylation of phenoxide

Effects of solvents and molecular weights of polyethylene glycols on the allylation of phenoxide

Synthesis and Analysis of Triphenylamine: A Review

Isomorphism within the hexagonal columnar mesophase of molecular and macromolecular self- and co-assembled columns containing tapered groups

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