Electroreduction mechanism of N-phenylhydroxylamines in aprotic solvents: formation of hydrogen bonds between N-(3-nitrophenyl) hydroxylamine and its radical anion

Mendkovich A. S.; Syroeshkin M. A.; Gultyai V. P.; Rusakov A. I.

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Electroreduction mechanism of N-phenylhydroxylamines in aprotic solvents: formation of hydrogen bonds between N-(3-nitrophenyl) hydroxylamine and its radical anion

机译：N-苯基羟胺在非质子溶剂中的电荷机理：N-（3-硝基苯基）羟胺与其自由基阴离子之间的形成

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The electroreduction of N-(3-nitrophenyl) hydroxylamine in DMF was studied using cyclic voltammetry, chronoamperometry, and numerical simulation. It is shown that the stability of formed radical anion is significantly higher than that of the radical anion of the 4-nitrophenyl derivative. In the range of low concentrations and high potential scan rates, the electroreduction of N-(3-nitrophenyl) hydroxylamine is complicated only by the formation of complexes between the depolarizer molecules, most likely, due to hydrogen bonds, as well as between the depolarizer and its radical anion. The thermodynamic and kinetic parameters of these processes were evaluated.

机译：使用循环伏安法，计时率和数值模拟研究了DMF中的N-（3-硝基苯基）羟胺的电荷。结果表明，形成的自由基阴离子的稳定性显着高于4-硝基苯基衍生物的自由基阴离子的稳定性。在低浓度和高电位扫描速率的范围内，仅通过在去偏振剂分子之间形成络合物，即最小的氢键，以及去偏振器之间的络合物，羟胺的电荷是复杂的。及其激进的阴离子。评估这些方法的热力学和动力学参数。

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来源
《Russian Chemical Bulletin》 |2017年第3期|共4页
作者
Mendkovich A. S.; Syroeshkin M. A.; Gultyai V. P.; Rusakov A. I.;
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Russian Acad Sci ND Zelinsky Inst Organ Chem 47 Leninsky Prosp Moscow 119991 Russia;

Russian Acad Sci ND Zelinsky Inst Organ Chem 47 Leninsky Prosp Moscow 119991 Russia;

Russian Acad Sci ND Zelinsky Inst Organ Chem 47 Leninsky Prosp Moscow 119991 Russia;

PG Demidov Yaroslavl State Univ 14 Ul Sovetskaya Yaroslavl 150000 Russia;

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正文语种 eng
中图分类化学;
关键词
N-arylhydroxylamines; radical anions; hydrogen bond; cyclic voltammetry; chronoamperometry; numerical simulation;

机译：N-芳基羟胺;自由基阴离子;氢键;循环伏安法;计时率;数值模拟;

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1. Electroreduction mechanism of N-phenylhydroxylamines in aprotic solvents: formation of hydrogen bonds between N-(3-nitrophenyl) hydroxylamine and its radical anion [J] . Mendkovich A. S., Syroeshkin M. A., Gultyai V. P., Russian Chemical Bulletin . 2017,第3期

机译：N-苯基羟胺在非质子溶剂中的电荷机理：N-（3-硝基苯基）羟胺与其自由基阴离子之间的形成
2. Nonspecific Solute–Solvent Interactions in Binary Solvent Mixtures Containing an Aprotic Hydrogen-Bond Acceptor and a Hydrogen-Bond Donor: Dipolarity/Polarizability and Refractive Index [J] . P. M. Mancini, A. del C. Pérez, L. R. Vottero Journal of Solution Chemistry . 2001,第8期

机译：包含非质子氢键受体和氢键供体的二元溶剂混合物中的非特异性溶质-溶剂相互作用：偶极/可极化性和折射率
3. Nonspecific Solute-Solvent Interactions in Binary Solvent Mixtures Containing an Aprotic Hydrogen-Bond Acceptor and a Hydrogen-Bond Donor:Dipolarity/Polarizability and Refractive Index [J] . P.M.Mancini, A.del C.Perez, L.R.Vottero Journal of Solution Chemistry . 2001,第8期

机译：包含非质子氢键受体和氢键供体的二元溶剂混合物中的非特异性溶质-溶剂相互作用：偶极/可极化性和折射率
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Electroreduction mechanism of N-phenylhydroxylamines in aprotic solvents: formation of hydrogen bonds between N-(3-nitrophenyl) hydroxylamine and its radical anion

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