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相关概念视频

Pore Transport and Ion-Pair Transport01:17

Pore Transport and Ion-Pair Transport

393
Pore transport and ion-pair formation are critical mechanisms for the absorption and distribution of drugs in the body.
Pore transport, also known as convective transport, is a process where small molecules like urea, water, and sugars rapidly cross cell membranes as though there were channels or pores in the membrane. Although direct microscopic evidence is limited  but the concept of pores or channels is widely accepted based on physiological evidence. Despite the lack of direct...
393
Ion Exchange01:17

Ion Exchange

565
Ion exchange chromatography separates charged molecules from a solution by reversibly exchanging them with mobile, or 'active', ions associated with the oppositely charged stationary phase. This method can be used to separate ions, soften and deionize water, and purify solutions. The polymers comprising the ion-exchange column are high-molecular-weight and chemically stable polymers, crosslinked to be porous and essentially insoluble. They are also functionalized with either acidic or...
565
Non-gated Ion Channels01:24

Non-gated Ion Channels

6.7K
Ion channels are specialized proteins on the plasma membrane that allow charged ions to pass down their electrochemical gradient. Their main function is to maintain the membrane potential which is critical for cell viability. These channels are either gated or non-gated and can transport more than a thousand ions within milliseconds for the cellular event to occur.
Compared to the gated ion channels, the non-gated channels, also known as leakage or passive channels, have no gating mechanism....
6.7K
Intermolecular Forces03:13

Intermolecular Forces

58.0K
Atoms and molecules interact through bonds (or forces): intramolecular and intermolecular. The forces are electrostatic as they arise from interactions (attractive or repulsive) between charged species (permanent, partial, or temporary charges) and exist with varying strengths between ions, polar, nonpolar, and neutral molecules. The different types of intermolecular forces are ion–dipole, dipole–dipole, hydrogen bonds, and dispersion; among these, dipole–dipole, hydrogen...
58.0K
Facilitated Transport01:19

Facilitated Transport

11.3K
The chemical and physical properties of plasma membranes cause them to be selectively permeable. Since plasma membranes have both hydrophobic and hydrophilic regions, substances need to be able to transverse both regions. The hydrophobic area of membranes repels substances such as charged ions. Therefore, such substances need special membrane proteins to cross a membrane successfully. In  facilitated transport, also known as facilitated diffusion, molecules and ions travel across a...
11.3K
Aqueous Solutions and Heats of Hydration02:42

Aqueous Solutions and Heats of Hydration

14.6K
Water and other polar molecules are attracted to ions. The electrostatic attraction between an ion and a molecule with a dipole is called an ion-dipole attraction. These attractions play an important role in the dissolution of ionic compounds in water.
When ionic compounds dissolve in water, the ions in the solid separate and disperse uniformly throughout the solution because water molecules surround and solvate the ions, reducing the strong electrostatic forces between them. This process...
14.6K

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Updated: Jun 13, 2025

Merging Ion Concentration Polarization between Juxtaposed Ion Exchange Membranes to Block the Propagation of the Polarization Zone
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在一个异质充电的单档水道中,对岸封锁.

Shusong Zhang1, Li Fu2, Yanbo Xie3

  • 1School of Physical Science and Technology, Northwestern Polytechnical University, Xi'an 710072, China.

The journal of physical chemistry. B
|September 12, 2024
PubMed
概括
此摘要是机器生成的。

安格斯特罗姆通道中的离子运输被与表面电荷结合的离子阻断. 自由离子释放这些结合的离子,使离子电流成为可能,并影响导电行为.

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科学领域:

  • 物理化学 物理化学
  • 纳米级科学科学 纳米级科学
  • 离子运输现象 离子运输现象

背景情况:

  • 波桑-内恩斯特-普朗克理论不充分地描述了安格斯特罗姆通道中的离子运输.
  • 这些通道中的导电因脱水/自我能量障碍和Bjerrum离子对解离等因素而偏离欧姆定律.

研究的目的:

  • 为了研究安格斯特罗姆通道中离子运输阻塞的机制.
  • 了解在非线性电流-电压 (I-V) 曲线中与表面电荷结合的离子作用.
  • 探索自由离子和表面电荷密度对离子导电的影响.

主要方法:

  • 在单档水道中对离子运输的理论建模.
  • 应用 1D 克拉默斯的逃跑理论框架.
  • 在不同的条件下分析电流-电压 (I-V) 特性.

主要成果:

  • 电离子强烈地与表面电荷结合,阻断离子运输,并导致非线性I-V曲线.
  • 自由离子促进结合的阳离子的释放,促进离子电流.
  • 增加表面电荷密度导致更多的欧米导电,但由于摩擦而降低了振幅.

结论:

  • 抗离子和表面电荷之间的强库伦比相互作用是Angstrom通道中的离子阻塞的原因.
  • 1D 克拉默斯的逃逸理论有效地合理化了观察到的非线性离子电流和表面电荷效应.
  • 了解这些机制对于控制纳米尺度的离子运输至关重要.