Molecular path control in zeolite membranes

机译：沸石膜的分子路径控制

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摘要

We report molecular simulations of diffusion in confinement showing a phenomenon that we denote as molecular path control (MPC); depending on loading, molecules follow a preferred pathway. MPC raises the important question to which extent the loading may affect the molecular trajectories in nanoporous materials. Through MPC one is able to manually adjust the ratio of the diffusivities through different types of pores, and as an application one can direct the flow of diffusing particles in membranes forward or sideward by simply adjusting the pressure, without the need for mechanical parts like valves. We show that the key ingredient of MPC is the anisotropic nature of the nanoporous material that results in a complex interplay between different diffusion paths as a function of loading. These paths may be controlled by changing the loading, either through a change in pressure or temperature.

机译：我们报告了封闭状态下扩散的分子模拟，显示了一种我们称之为分子路径控制（MPC）的现象。取决于负载，分子遵循优选的途径。 MPC提出了一个重要的问题，即负载量可在多大程度上影响纳米多孔材料中的分子轨迹。通过MPC，人们可以手动调节通过不同类型的孔的扩散率，并且作为一种应用，可以通过简单地调节压力来引导膜中的扩散颗粒向前或向侧面流动，而无需诸如阀之类的机械部件。。我们表明，MPC的关键成分是纳米多孔材料的各向异性，这会导致不同扩散路径之间的复杂相互作用（作为载荷的函数）。这些路径可以通过改变压力或温度来改变负载来控制。

著录项

期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
D. Dubbeldam; E. Beerdsen; S. Calero; B. Smit;
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作者单位

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年(卷),期 2005(102),35
年度 2005
页码 12317–12320
总页数 4
原文格式 PDF
正文语种
中图分类
关键词
anomalous diffusion nanoporous materials statistical physics;

机译：异常扩散;纳米多孔材料;统计物理学;

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专利

1. Molecular path control in zeolite membranes [J] . Dubbeldam D, Beerdsen E, Calero S, Proceedings of the National Academy of Sciences of the United States of America . 2005 ,第35期

机译：沸石膜的分子路径控制
2. Fabrication and evaluation of novel zeolite membranes to control the neoplastic activity and anti-tumoral drug treatments in human breast cancer cells. Part 1: Synthesis and characterization of Pure Zeolite Membranes and Mixed Matrix Membranes for adhesion and growth of cancer cells [J] . Palmira Tavolaro, Guglielmo Martino, Sebastiano Ando, Materials science & engineering . 2016 ,第deca期

机译：新型沸石膜的制备和评估，以控制人乳腺癌细胞的肿瘤活性和抗肿瘤药物治疗。第1部分：用于癌细胞粘附和生长的纯沸石膜和混合基质膜的合成和表征
3. Fabrication and evaluation of novel zeolite membranes to control the neoplastic activity and anti-tumoral drug treatments in human breast cancer cells. Part 1: Synthesis and characterization of Pure Zeolite Membranes and Mixed Matrix Membranes for adhesion and growth of cancer cells [J] . Tavolaro Palmira, Martino Guglielmo, Ando Sebastiano, Materials science & engineering, C. Materials for Biogical applications . 2016 ,第Null期

机译：新型沸石膜的制备和评估，以控制人乳腺癌细胞的肿瘤活性和抗肿瘤药物治疗。第1部分：用于癌细胞粘附和生长的纯沸石膜和混合基质膜的合成与表征
4. Molecular Modeling of Multicomponent Diffusion in Zeolites and Zeolite Membranes [C] . Martin J. Sanborn, Amit Gupta, Louis A. Clark, 13th International Zeolite Conference, 13th, Jul 8-13, 2001, Montpellier, France . 2001

机译：沸石和沸石膜中多组分扩散的分子模型
5. Molecular-Size Selective Zeolite Membrane Encapsulated Novel Catalysts for Enhanced Biomass to Liquid (BTL) Processes [D] . Cimenler, Ummuhan. 2017

机译：分子尺寸选择性沸石膜包封的新型催化剂，可增强生物质到液体（BTL）的过程
6. Enhanced Performance of Carbon Molecular Sieve Membranes Incorporating Zeolite Nanocrystals for Air Separation [O] . Chong Yang Chuah, Kunli Goh, Tae-Hyun Bae 2021

机译：增强碳分子筛膜的性能其掺入沸石纳米晶体的空气分离
7. Molecular path control in zeolite membranes [O] . Dubbeldam, D., Beerdsen, E., Calero, S., 2005

机译：沸石膜的分子路径控制
8. Preparation and Characterization of Composite Inorganic Zeolite Membranes withMolecular Sieve Properties [R] . Geus, E. R. 1993

机译：具有分子筛性能的复合无机沸石膜的制备与表征

Molecular path control in zeolite membranes

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