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A Structure–Permeability Relationship of Ultrathin Nanoporous Silicon Membrane: A Comparison with the Nuclear Envelope

机译：超薄纳米多孔硅膜的结构-渗透率关系：与核包膜的比较。

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We report on a simple, quantitative relationship between structure and permeability of a novel ultrathin nanoporous membrane based on nanocrystalline silicon. Large permeability of the free-standing nanomembrane to Ru(NH3)6³⁺, O2, or 1,1’-ferrocenedimethanol, which was able to be measured for the first time by employing scanning electrochemical microscopy, is proportional to density (67 µm⁻²) and average radius (5.6 nm) of nanopores. As solution electrolyte concentration decreases down to 0.01 M, the nanopores are selectively “closed” against Fe(CN)6⁴⁻ because of electrostatic repulsion against negative charges at the pore wall. Permeability of the silicon nanomembrane was compared to permeability of the nuclear envelope to find that the channel diameter of the nuclear pore complex that perforates the nuclear envelope is much larger than the average diameter of the silicon nanopores and concomitantly a hypothetical diameter of 10 nm.

机译：我们报告了基于纳米晶硅的新型超薄纳米多孔膜的结构和渗透性之间的简单，定量关系。独立的纳米膜对Ru（NH3）6 ^{3 + ，O2或1,1'-二茂铁二甲醇的大渗透性，这是通过扫描电化学显微镜首次测定的，与纳米孔的密度（67 µm ^{−2 ）和平均半径（5.6 nm）成正比。随着溶液电解质的浓度降低至0.01 M，纳米孔被选择性“封闭”以抵抗Fe（CN）6 ^{4-，这是因为孔壁上的负电荷受到静电排斥。将硅纳米膜的渗透性与核被膜的渗透性进行比较，发现贯穿核被膜的核孔复合体的通道直径比硅纳米孔的平均直径大得多，因此假设直径为10 nm。}}}

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期刊名称 other
作者
Eunkyoung Kim; Hui Xiong; Christopher C. Striemer; David Z. Fang; Philippe M. Fauchet; James L. McGrath; Shigeru Amemiya;
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年(卷),期 -1(130),13
年度 -1
页码 1021/ja711258w
总页数 6
原文格式 PDF
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1. A Structure-Permeability Relationship of Ultrathin Nanoporous Silicon Membrane: A Comparison with the Nuclear Envelope [J] . Eunkyoung Kim, Hui Xiong, Christopher C. Striemer, Journal of the American Chemical Society . 2008,第13期

机译：超薄纳米多孔硅膜的结构-渗透率关系：与核包膜的比较。
2. Ion-Selective Permeability of an Ultrathin Nanoporous Silicon Membrane as Probed by Scanning Electrochemical Microscopy Using Micropipet-Supported ITIES Tips [J] . Ryoichi Ishimatsu Jiyeon Kim Ping Jing Christopher C. Striemer David Z. Fang Philippe M. Fauchet James L. McGrath and Shigeru Amemiya Analytical Chemistry . 2010,第17期

机译：超薄纳米多孔硅膜的离子选择性渗透性，通过使用微量移液管支持的ICH的扫描电化学显微镜进行探测
3. Ion-Selective Permeability of an Ultrathin Nanoporous Silicon Membrane as Probed by Scanning Electrochemical Microscopy Using Micropipet-Supported ITIES Tips [J] . Ryoichi Ishimatsu, Jiyeon Kim, Ping Jing, Analytical chemistry . 2010,第17期

机译：超薄纳米多孔硅膜的离子选择性渗透性，通过使用微量移液管支持的ICH的扫描电化学显微镜进行探测
4. STRUCTURE-PROPERTY RELATIONSHIPS IN POLYMER DERIVED AMORPHOUS/NANO-CRYSTALLINE SILICON CARBIDE FOR NUCLEAR APPLICATIONS [C] . Suraj C. Zunjarrao, Abhishek K. Singh, Raman P. Singh 14th International Conference on Nuclear Engineering 2006(ICONE14) vol.3 . 2006

机译：核应用聚合物衍生的非晶态/纳米晶硅碳化物的结构-性能关系
5. Thermal Effects of Surface Nanostructures on Ultrathin Silicon Membranes [D] . Moore, Quentin. 2020

机译：表面纳米结构对超薄硅膜的热效应
6. Ion-Selective Permeability of Ultrathin Nanoporous Silicon Membrane as Probed by Scanning Electrochemical Microscopy Using Micropipet-Supported ITIES Tips [O] . Ryoichi Ishimatsu, Jiyeon Kim, Ping Jing, -1

机译：使用扫描电化学显微镜超薄纳米多孔膜作为探索sun Yatsen的离子选择透过性微量吸管支持的ITIEs提示
7. A Structure-Permeability Relationship of Ultrathin Nanoporous Silicon Membrane: A Comparison with the Nuclear Envelope [O] . -1

机译：超薄纳米孔硅膜的结构渗透性关系：与核封相比的比较
8. Investigation of Structure-Permeability Relationships of Silicone Polymer Membranes. Final Report October 1982-September 1986 [R] . Lee, C. L. , Stern, S. A. , Mark, J. E. , 1986

机译：有机硅聚合物膜结构 - 渗透性关系的研究。 1982年10月至1986年9月的最终报告

A Structure–Permeability Relationship of Ultrathin Nanoporous Silicon Membrane: A Comparison with the Nuclear Envelope

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