Ion Transfer Across the Interface between Two Immiscible Electrolyte Solutions (ITIES) Formed by the Biphasic System Water-Propanol-Sucrose-PEG

机译：跨两相系统水-丙醇-蔗糖-PEG形成的两种不混溶电解质溶液（ITIES）界面上的离子转移

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Ionic transfer between two immiscible electrolyte solutions has risen in interest in the past years for their various applications. ITIES are generally established between an organic and an aqueous electrolyte; however in this paper, the capability of ionic transfer experiments at the interface of an aqueous biphasic system is addressed. The results are reported on the water-sucrose-propanol-polyethylene glycol (PEG) biphasic system. Lithium Chloride, LiCl, and, bis-(triphenylphoshporanylidene)ammonium chloride, BTPPYNC1, were chosen as supporting salts. A potential window of 1000 mV was observed. Ion transfer experiments were carried out after incremental additions of ammonium chloride. Cyclic voltammetries were performed at scan rates between 1 and 20 mV/s. Current peak increments related to ionic transfer were observed. Current peak showed linear correlation with concentration with correlation coefficients between 0.97 and 0.99.

机译：在过去的几年中，两种不混溶的电解质溶液之间的离子转移因其各种应用而引起人们的关注。 ITIES通常建立在有机和水性电解质之间；然而，在本文中，解决了在水相系统的界面上进行离子转移实验的能力。在水-蔗糖-丙醇-聚乙二醇（PEG）两相系统上报告了结果。选择氯化锂LiCl和双（三苯基膦酰亚氨基）氯化铵BTPPYNC1作为支持盐。观察到1000 mV的电势窗口。逐步添加氯化铵后进行离子转移实验。循环伏安法以1至20 mV / s的扫描速率进行。观察到与离子转移有关的当前峰增量。电流峰值与浓度呈线性相关，相关系数在0.97和0.99之间。

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《MES 25: electrochemistry for alternative energy sources and environmental improvement》|2010年|p.307-314|共8页
会议地点 Zacatecas(MX);Zacatecas(MX)
作者
J. A. Martinez-Alvarez; M. Videa;
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Department of Chemistry, Tecnologico de Monterrey, Monterrey, N.L. 64849, MEX;

Department of Chemistry, Tecnologico de Monterrey, Monterrey, N.L. 64849, MEX;

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正文语种 eng
中图分类电化学工业;
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1. Derivation of the explicit equation relating mass-transport_limited-current to voltage at the interface between two immiscible electrolyte solutions (ITIES) [J] . R. A. H. Edwards, M. Vignali, V. J. Cunnane Journal of Applied Electrochemistry . 2009,第2期

机译：推导明确的方程，该方程将质量限制运输电流与两种不混溶的电解质溶液之间的界面电压相关（ITIES）
2. Derivation of the explicit equation relating mass-transport-limited-current to voltage at the interface between two immiscible electrolyte solutions (ITIES) [J] . R. A. H. Edwards, M. Vignali, V. J. Cunnane Journal of Applied Electrochemistry . 2009,第2期

机译：推导了将两种物质互溶的电解质溶液（ITIES）之间的界面的质量传递极限电流与电压相关的显式方程的推导
3. Particle deposition and catalysis at the interface between two immiscible electrolyte solutions (ITIES): A mini-review [J] . Andrew N.J. Rodgers, Samuel G. Booth, Robert A.W. Dryfe Electrochemistry communications . 2014,第Null期

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4. Ion Transfer at the Interface between Two Immiscible Electrolytes Formed by the Biphasic System Water-Propanol-Sucrose-PEG [C] . J.A. Martinez-Alvarez, M. Videa MES 23: Electrochemistry, nanotechnology, and biomaterials . 2008

机译：两相体系水-丙醇-蔗糖-PEG形成的两种不混溶电解质之间的界面处的离子转移
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8. Total Internal Reflection Second Harmonic Generation from the Interface BetweenTwo Immiscible Electrolyte Solutions [R] . Conboy, J. C., Richmond, G. L. 1995

机译：从两种不混溶电解质溶液的界面产生全内反射二次谐波

Ion Transfer Across the Interface between Two Immiscible Electrolyte Solutions (ITIES) Formed by the Biphasic System Water-Propanol-Sucrose-PEG

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