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Diffusion01:12

Diffusion

215.7K
Diffusion is the passive movement of substances down their concentration gradients—requiring no expenditure of cellular energy. Substances, such as molecules or ions, diffuse from an area of high concentration to an area of low concentration in the cytosol or across membranes. Eventually, the concentration will even out, with the substance moving randomly but causing no net change in concentration. Such a state is called dynamic equilibrium, which is essential for maintaining overall...
215.7K
Diffusion01:21

Diffusion

6.1K
Diffusion is a type of passive transport. In passive transport, a substance tends to move from an area of high concentration to an area of low concentration until the concentration is equal across the space. For example, take the diffusion of substances through the air. When someone opens a perfume bottle in a room filled with people, the perfume is at its highest concentration in the bottle and is at its lowest at the edges of the room. The perfume vapor will diffuse, or spread away, from the...
6.1K
Passive Diffusion: Overview and Kinetics01:17

Passive Diffusion: Overview and Kinetics

1.2K
Passive diffusion is a critical process that allows small lipophilic drugs to cross the cell membrane along a concentration gradient. This mechanism's efficiency depends on four primary factors: the membrane's surface area, the drug's lipid-water partition coefficient, the concentration gradient, and the membrane's thickness.
When administered orally, drugs establish a substantial concentration gradient between the gastrointestinal (GI) lumen and the bloodstream, expediting...
1.2K
Protein Diffusion in the Membrane01:24

Protein Diffusion in the Membrane

5.4K
Proteins show rotational as well as lateral diffusion across the membrane. The lateral diffusion of proteins was confirmed through the cell fusion experiment where mouse and human cells were fused, resulting in hybrid cells. When the human and mouse cells fused, the specific membrane proteins on human and mouse cells were marked with the red and green-fluorescent markers, respectively. Initially, the red and green fluorescence was located on the respective hemisphere of the cell. As time...
5.4K
Behavior of Gas Molecules: Molecular Diffusion, Mean Free Path, and Effusion03:48

Behavior of Gas Molecules: Molecular Diffusion, Mean Free Path, and Effusion

31.1K
Although gaseous molecules travel at tremendous speeds (hundreds of meters per second), they collide with other gaseous molecules and travel in many different directions before reaching the desired target. At room temperature, a gaseous molecule will experience billions of collisions per second. The mean free path is the average distance a molecule travels between collisions. The mean free path increases with decreasing pressure; in general, the mean free path for a gaseous molecule will be...
31.1K
Theories of Dissolution: The Danckwerts' Model and Interfacial Barrier Model01:09

Theories of Dissolution: The Danckwerts' Model and Interfacial Barrier Model

745
Various dissolution theories provide insight into the factors that influence the dissolution rate. Danckwerts' Model suggests that turbulence, rather than a stagnant layer, characterizes the dissolution medium at the solid-liquid interface. In this model, the agitated solvent contains macroscopic packets that move to the interface via eddy currents, facilitating the absorption and delivery of the drug to the bulk solution. The regular replenishment of solvent packets maintains the...
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相关实验视频

Updated: Jan 10, 2026

Synthesis of Cyclic Polymers and Characterization of Their Diffusive Motion in the Melt State at the Single Molecule Level
06:55

Synthesis of Cyclic Polymers and Characterization of Their Diffusive Motion in the Melt State at the Single Molecule Level

Published on: September 26, 2016

8.4K

量化从单个文件到Fickian扩散的过渡.

Victorya Richardson1, Sean D Lawley1

  • 1Department of Mathematics, University of Utah, Salt Lake City, Utah 84112, USA.

The Journal of chemical physics
|November 20, 2025
PubMed
概括

狭窄管中的粒子表现出单档扩散,其特征是亚扩散行为. 这项研究量化了跳跃时间,这对于理解局限几何体内的扩散动态过渡至关重要.

科学领域:

  • 物理 物理学 物理
  • 物理化学 物理化学
  • 化学物理 化学物理

背景情况:

  • 单档扩散发生在狭窄的管道中,其中的粒子不能互相超越.
  • 这种现象在自然和工程系统中观察到,其特点是亚扩散平均平方位移.
  • 在允许罕见传递事件的通道中,扩散从亚扩散转变为扩散,由粒子跳跃时间控制.

研究的目的:

  • 调查跳跃时间在单文件扩散中对限制几何学的依赖.
  • 解决现有的化学物理文学中关于跳跃时间的相互矛盾的预测.
  • 开发一个理论框架,以理解粒子在狭窄的几何形状中通过.

主要方法:

  • 利用边界均质化的理论来模型粒子通过.
  • 运用强局部扰动的数学理论来导出分析公式.
  • 通过动力蒙特卡洛模拟验证分析结果.

主要成果:

  • 根据封闭几何学,衍生出透性和跳跃时间的明确公式.
  • 量化了几何和粒子通过邻居所需的时间之间的关系.
  • 模拟数据证实了分析预测.

结论:

更多相关视频

Single-Molecule Tracking Microscopy - A Tool for Determining the Diffusive States of Cytosolic Molecules
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Single-Molecule Tracking Microscopy - A Tool for Determining the Diffusive States of Cytosolic Molecules

Published on: September 5, 2019

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The Diffusion of Passive Tracers in Laminar Shear Flow
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The Diffusion of Passive Tracers in Laminar Shear Flow

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相关实验视频

Last Updated: Jan 10, 2026

Synthesis of Cyclic Polymers and Characterization of Their Diffusive Motion in the Melt State at the Single Molecule Level
06:55

Synthesis of Cyclic Polymers and Characterization of Their Diffusive Motion in the Melt State at the Single Molecule Level

Published on: September 26, 2016

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Single-Molecule Tracking Microscopy - A Tool for Determining the Diffusive States of Cytosolic Molecules
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Single-Molecule Tracking Microscopy - A Tool for Determining the Diffusive States of Cytosolic Molecules

Published on: September 5, 2019

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The Diffusion of Passive Tracers in Laminar Shear Flow
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The Diffusion of Passive Tracers in Laminar Shear Flow

Published on: May 1, 2018

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  • 该研究提供了一个强大的理论框架,用于理解单文件传播中的跳跃时间.
  • 衍生的公式提供精确的预测粒子通过动力学在封闭系统.
  • 这项工作解决了以前的理论差异,并为进一步研究扩散现象提供了基础.