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Fast and selective fluoride ion conduction in sub-1-nanometer metal-organic framework channels

机译：1纳米以下金属-有机骨架通道中的快速选择性氟离子传导

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Biological fluoride ion channels are sub-1-nanometer protein pores with ultrahigh F⁻ conductivity and selectivity over other halogen ions. Developing synthetic F⁻ channels with biological-level selectivity is highly desirable for ion separations such as water defluoridation, but it remains a great challenge. Here we report synthetic F⁻ channels fabricated from zirconium-based metal-organic frameworks (MOFs), UiO-66-X (X = H, NH2, and N⁺(CH3)3). These MOFs are comprised of nanometer-sized cavities connected by sub-1-nanometer-sized windows and have specific F⁻ binding sites along the channels, sharing some features of biological F⁻ channels. UiO-66-X channels consistently show ultrahigh F⁻ conductivity up to ~10 S m⁻¹, and ultrahigh F⁻/Cl⁻ selectivity, from ~13 to ~240. Molecular dynamics simulations reveal that the ultrahigh F⁻ conductivity and selectivity can be ascribed mainly to the high F⁻ concentration in the UiO-66 channels, arising from specific interactions between F⁻ ions and F⁻ binding sites in the MOF channels.

机译：生物氟离子通道是低于1纳米的蛋白质孔，具有超高的F ^{-电导率和相对于其他卤素离子的选择性。对于诸如水脱氟之类的离子分离，开发具有生物学水平选择性的合成F ^{-通道是非常可取的，但这仍然是一个巨大的挑战。在这里，我们报告由锆基金属有机骨架（MOF），UiO-66-X（X = H，NH2和N ^{+ （ CH3）3）。这些MOF由通过小于1纳米大小的窗口连接的纳米大小的腔组成，并且沿通道具有特定的F ^{-结合位点，共享一些生物F ^{-频道。 UiO-66-X通道始终显示高达〜10 S m ^{-1 的超高F ^{-电导率，以及超高F ^{- / Cl ^{− 选择性，从〜13到〜240。分子动力学模拟表明，F ^{-的超高电导率和选择性主要归因于UiO-66通道中的高F ^{-浓度，这是由于F < MOF通道中的sup>-离子和F ^{-结合位点。}}}}}}}}}}}}

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期刊名称 Nature Communications
作者
Xingya Li; Huacheng Zhang; Peiyao Wang; Jue Hou; Jun Lu; Christopher D. Easton; Xiwang Zhang; Matthew R. Hill; Aaron W. Thornton; Jefferson Zhe Liu; Benny D. Freeman; Anita J. Hill; Lei Jiang; Huanting Wang;
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年(卷),期 -1(10),-1
年度 -1
页码 2490
总页数 12
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1. Selective, Fast-Response, and Regenerable Metal-Organic Framework for Sampling Excess Fluoride Levels in Drinking Water [J] . Ebrahim Fatmah Mish, Nguyen Tu N., Shyshkanov Serhii, Journal of the American Chemical Society . 2019,第7期

机译：选择性，快速响应和可再生的金属有机框架，用于采样饮用水中的过量氟水平
2. Gated Channels and Selectivity Tuning of CO2 over N-2 Sorption by Post-Synthetic Modification of a UiO-66-Type Metal-Organic Framework [J] . Kronast Alexander, Eckstein Sebastian, Altenbuchner Peter T., Chemistry: A European journal . 2016,第36期

机译：UiO-66型金属有机骨架的后合成修饰在N-2吸附下的门控通道和CO2选择性调谐
3. Gated Channels and Selectivity Tuning of CO2 over N-2 Sorption by Post-Synthetic Modification of a UiO-66-Type Metal-Organic Framework [J] . Kronast Alexander, Eckstein Sebastian, Altenbuchner Peter T., Chemistry: A European journal . 2016,第36期

机译：UiO-66型金属有机骨架的后合成修饰在N-2吸附下的门控通道和CO2选择性调谐
4. Metal-Organic Framework Derived CeO2 Based Two-Dimensional Layered Nanocomposites for Selective Electrochemical Dopamine Detection [C] . Chengjie Ge, Rajendran Ramachandran, Fei Wang IEEE International Conference on Nano/Micro Engineered and Molecular Systems . 2020

机译：金属有机框架衍生的基于CeO2的二维层叠纳米复合材料，用于选择性电化学多巴胺检测
5. Metal-Organic Frameworks: A New Class of Materials for Anhydrous Proton Conduction [D] . Hurd, Jeff Allen 2010

机译：金属有机框架：用于无水质子传导的新型材料
6. Highly sensitive and selective fluoride detection in water through fluorophore release from a metal-organic framework [O] . Florian M. Hinterholzinger, Bastian Rühle, Stefan Wuttke, -1

机译：通过金属有机框架中的荧光团释放对水中的氟进行高度灵敏和选择性的检测
7. Highly sensitive and selective fluoride detection in water through fluorophore release from a metal-organic framework [O] . Florian M. Hinterholzinger, Bastian Rühle, Stefan Wuttke, 2013

机译：通过荧光团从金属有机框架中释放出高度敏感和选择性氟化物检测

Fast and selective fluoride ion conduction in sub-1-nanometer metal-organic framework channels

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