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Confinement Effects on Chemical Equilibria: Pentacyano(Pyrazine)Ferrate(II) Stability Changes within Nanosized Droplets of Water

机译：局限性对化学平衡的影响：纳米水滴中五氯苯甲酸（吡嗪）高铁酸盐（II）的稳定性变化

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摘要

Nanoscale confinement is known to impact properties of molecules and we observed changes in the reactivity of an iron coordination complex, pentacyano(pyrazine)ferrate(II). The confinement of two coordination complexes in a sodium AOT/isooctane reverse micellar (RM) water droplet was found to dramatically increase the hydrolysis rate of [Fe(CN)5pyz]³⁻ and change the monomer-dimer equilibria between [Fe(CN)5pyz]³⁻ and [Fe2(CN)10pyz]⁶⁻. Combined UV-Vis and ¹H-NMR spectra of these complexes in RMs were analyzed and the position of the monomer-dimer equilibrium and the relative reaction times were determined at three different RM sizes. The data show that the hydrolysis rates (loss of pyrazine) are dramatically enhanced in RMs over bulk water and increase as the size of the RM decreases. Likewise, the monomer-dimer equilibrium changes to favor the formation of dimer as the RM size decreases. We conclude that the effects of the [Fe(CN)5pyz]³⁻ stability is related to its solvation within the RM.

机译：已知纳米级限制会影响分子的性质，我们观察到了铁配位络合物五氰基（吡嗪）高铁酸盐（II）的反应性变化。发现将两个配位配合物限制在AOT /异辛烷反胶束（RM）水滴中可显着提高[Fe（CN）5pyz] ^{3-的水解速率并改变单体二聚体[Fe（CN）5pyz] ^{3-和[Fe2（CN）10pyz] ^{6-之间的平衡。分析了这些配合物在RMs中的UV-Vis和^{1 H-NMR光谱，并在三种不同的RM尺寸下确定了单体-二聚体平衡的位置和相对反应时间。数据表明，RM的水解速率（吡嗪的损失）比散装水显着提高，并且随着RM尺寸的减小而增加。同样，当RM尺寸减小时，单体-二聚体平衡发生变化以利于二聚体的形成。我们得出结论，[Fe（CN）5pyz] ^{3-稳定性的影响与其在RM中的溶剂化有关。}}}}}

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期刊名称 Molecules
作者
Teofilo Borunda; Alexander J. Myers; J. Mary Fisher; Debbie C. Crans; Michael D. Johnson;
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作者单位

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年(卷),期 2018(23),4
年度 2018
页码 858
总页数 14
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
Confinement effects coordination chemistry at the nanoscale pentacyano(pyrazine)ferrate(II) Fe(CN)5pyzsup3−/sup hydrolysis rates monomer-dimer equilibrium reverse micelles interface interactions;

机译：限制作用;纳米级配位化学;五氰基（吡嗪）高铁酸盐（II）;Fe（CN）5pyz sup 3-/ sup;水解速率;单体-二聚体平衡;反胶束;界面相互作用;
入库时间 2022-08-17 12:24:33

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Confinement Effects on Chemical Equilibria: Pentacyano(Pyrazine)Ferrate(II) Stability Changes within Nanosized Droplets of Water

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