The effect of the nature of the head group on the micellar effects of functional/cationic co-micelles in acyl transfer reactions

Belousova, І. A.; Karpichev, Yevgen; Prokop’eva, T. M.; Luk’yanova, L. V.; Savëlova, V. A.; Popov, A. F.

doi:10.1007/s11237-007-0003-5

Cited by 8 publications

(13 citation statements)

References 14 publications

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“…Another highly efficient micellar systems for the decomposition of organophosphates were proposed by this team [62,55]. They investigated a new class of functional detergents, containing an imidazole ring and typical fragments of α-nucleophiles; oximate, hydroxamate 29, and amidoximate groups in mixed micelles with cationic surfactants to analyze both nucleophilicities of specific moieties and observed reaction rates and apparent pK a as a function of mole fraction of the functionalized surfactant in the mixed micelle.…”

Section: Scheme 12 Functionalized Surfactants With Different α-Nuclementioning

confidence: 99%

From α-nucleophiles to functionalized aggregates: exploring the reactivity of hydroxamate ion towards esterolytic reactions in micelles

et al. 2015

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Owing to the rising threats of neurotoxic organophosphosphorus compounds, facile and efficient decontamination systems are required. Since the last few decades, the search for promising α-nucleophiles for straightforward and eco-friendly decontamination reactions using α-nucleophiles has been considerably boosted up. Among these, hydroxamic acids have been widely studied due to their potential α-nucleophilicity towards carbon and phosphorus based esters. This account summarizes our research on α-nucleophilicity of hydroxamate ions in water and micelles towards esterolytic reactions. Efforts of our group in the last few years have been collectively judged and compared with the crucial findings of researchers in the relevant field. The present article sheds light on the rich chemistry of the hydroxamate ion as a perfect candidate to degrade organophosphorus esters (i.e. nerve agents, pesticides and their simulants) in water, in micelles of conventional surfactants, and in functionalized micelles. The current report also provides an insight into the possible nature and mechanisms of these reactions. A brief account of the biological activities of hydroxamic acids that have recently spurred research in medicine against some fatal diseases has been included.

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Section: Scheme 12 Functionalized Surfactants With Different α-Nuclementioning

confidence: 99%

From α-nucleophiles to functionalized aggregates: exploring the reactivity of hydroxamate ion towards esterolytic reactions in micelles

et al. 2015

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“…The introduction of tetraalkylammonium [148; 149], imidazolium [151,[157][158][159][160] or pyridinium [151] positively charged center in hydroxamic acid leads to an increase in its solubility in water [151,148,158], and undoubtedly, reduces the constants of acid ionization of the hydroxamate fragment. An increase in the distance between a functional group and a charged center neutralizes influence of the latter [156].…”

Section: Reactivity Of Functional Detergents Containing a Hydroxamatementioning

confidence: 99%

“…The studies carried out cover compounds with a rather diverse structure [148,149,154,[157][158][159][160][161][162][163][164][165][166][167][168][169][170][171][172], and in papers [148,149,[161][162][163][164][165][166][167] much attention was paid to the study of the reactivity of surfactants, the head group of which is structurally similar to AChE pyridinium reactivators (2-PAM, 4-PAM, etc. [77-79]).…”

Section: Reactivity Of Functional Detergents Containing An Oximate Frmentioning

confidence: 99%

“…Varying the nature of the head group. The literature [148,149,154,[157][158][159][160][161][162][163][164][165][166][167][168][169][170][171][172] describes functional detergents containing imidazolium, pyridinium, tetraalkylammonium fragments and an oximate group in the head part of the molecule. The study of their reactivity in the processes of model substrates (NPA, DPP, NP-DPP, NPDEP, NPDEP, NPDETP, NPTS, NPB) cleavage showed that they are effective acceptors of acyl groups.…”

Section: Reactivity Of Functional Detergents Containing An Oximate Frmentioning

confidence: 99%

“…The study of their reactivity in the processes of model substrates (NPA, DPP, NP-DPP, NPDEP, NPDEP, NPDETP, NPTS, NPB) cleavage showed that they are effective acceptors of acyl groups. Unfortunately, it is rather difficult to carry out a full-fledged comparative analysis based on the available literature data [148,149,154,[157][158][159][160][161][162][163][164][165][166][167][168][169][170][171][172]. This is because the authors use substrates of different reactivity and hydrophobicity, and reaction conditions are significally different (surfactant concentration, degree of ionization of a functional fragment, degree of substrate binding, temper-ature, additives of co-detergents, organic solvents, etc.…”

Section: Reactivity Of Functional Detergents Containing An Oximate Frmentioning

confidence: 99%

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REACTIVITY OF NUCLEOPHILES AND α-EFFECT IN SUBSTITUTION PROCESSES AT ELECTRON - DEFICIENCY CENTERS (Part 2)

Popov¹,

Капитанов²,

Serdyuk³

et al. 2020

Ukr. Chem. Journ.

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The review analyzes issues related to the reactivity of nucleophiles and the manifestation of the α-effect in substitution processes at electron-deficient centers. The fundamental aspects of this phenomenon, as well as the possibilities and prospects of using α-nucleophiles in systems for the highly efficient degradation of substrates - ecotoxicants of various natures, are discussed. In the first part of the review such aspects were observed: inorganic α-nucleophiles as the most effective class of reagents for the decomposition of organic phosphorus compounds, hydroxylamine, its N-alkyl derivatives, oximes, and hydroxamic acids, reactivity of the НОО– anion in the processes of acyl group transfer, reactivity of oximate ions, inorganic α-nucleophiles as the basis of formulations for the degradation of neurotoxins, vesicants, and organophosphorus pesticides, design of inhibited acetylcholinesterase reactivators based on hydroxylamine derivatives, ways of structural modification of α-nucleophiles and systems based on them. The data on the reactivity of typical inorganic α-nucleophiles in the cleavage of acyl-containing substrates, including phosphorus acid esters, which provide abnormally high reaction rates in comparison with other supernucleophiles, are analyzed. Various types of such α-nucleophiles, features of their structure and reactivity are considered. It was shown that an important feature of hydroxylamine, oximes, and hydroxamic acids is the presence of a fragment with adjacent O and N (–N – O – H) atoms containing one or more lone electron pairs, which determines their belonging to the class of α-nucleophiles. It has been shown that a many of factors can be responsible for the manifestation of the α-effect and its magnitude, the main of which is the destabilization of the ground state of the nucleophile due to repulsion of lone electron pairs, stabilization of the transition state, the unusual thermodynamic stability of reaction products, solvation effects of the solvent, type of hybridization of the electrophilic center, etc.

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Polyfunctional supramolecular systems based on surfactants containing the hydroxyalkyl moiety in the head group

et al. 2014

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The effect of the nature of the head group on the micellar effects of functional/cationic co-micelles in acyl transfer reactions

Cited by 8 publications

References 14 publications

From α-nucleophiles to functionalized aggregates: exploring the reactivity of hydroxamate ion towards esterolytic reactions in micelles

From α-nucleophiles to functionalized aggregates: exploring the reactivity of hydroxamate ion towards esterolytic reactions in micelles

REACTIVITY OF NUCLEOPHILES AND α-EFFECT IN SUBSTITUTION PROCESSES AT ELECTRON - DEFICIENCY CENTERS (Part 2)

Polyfunctional supramolecular systems based on surfactants containing the hydroxyalkyl moiety in the head group

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