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Diffusion01:21

Diffusion

7.0K
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...
7.0K
Diffusion01:12

Diffusion

226.2K
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...
226.2K
Behavior of Gas Molecules: Molecular Diffusion, Mean Free Path, and Effusion03:48

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

31.7K
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...
31.7K
Genetic Drift03:33

Genetic Drift

44.6K
Natural selection—probably the most well-known evolutionary mechanism—increases the prevalence of traits that enhance survival and reproduction. However, evolution does not merely propagate favorable traits, nor does it always benefit populations.
44.6K
Diffusion on Chromatography Columns01:07

Diffusion on Chromatography Columns

1.4K
In column chromatography, when an analyte is introduced as a narrow band at the top of the column, the solutes begin to separate and broaden, developing a Gaussian profile. This broadening occurs due to various factors, such as longitudinal diffusion.
Longitudinal diffusion occurs when the solute molecules in the mobile phase diffuse from the more concentrated center of the chromatographic band to the more dilute regions on either side, both towards and against the flow direction. This...
1.4K
Carrier Transport01:21

Carrier Transport

1.1K
The generation of electrical current in semiconductors is fundamentally driven by two mechanisms: drift and diffusion. These processes are essential for the functionality and performance of semiconductor-based devices.
Drift Current:
The drift of charge carriers is started by an external electric field (E). Charged particles, such as electrons and holes, experience an acceleration between collisions with lattice atoms. For electrons, this results in a drift velocity (vd) given by:
1.1K

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Related Experiment Video

Updated: Mar 6, 2026

Generating Controlled, Dynamic Chemical Landscapes to Study Microbial Behavior
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Generating Controlled, Dynamic Chemical Landscapes to Study Microbial Behavior

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Gradient-driven diffusion and pattern formation in crowded mixtures.

Prithviraj Nandigrami1, Brandy Grove2, Andrew Konya3

  • 1Department of Physics, Kent State University, Kent, Ohio 44242, USA.

Physical Review. E
|March 17, 2017
PubMed
Summary
This summary is machine-generated.

This study models diffusion in crowded mixtures, revealing how crowder molecules influence transport and microstructure. Findings show complex relationships between temperature, density, and diffusion, impacting pattern formation.

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Area of Science:

  • Physics
  • Chemistry
  • Biophysics

Background:

  • Gradient-driven diffusion is crucial for biological transport, like in cell membranes.
  • In phase-separated solutions, diffusion and microstructure influence each other, affecting transport and pattern formation.

Purpose of the Study:

  • To investigate the coupling between gradient-driven diffusion, phase separation, and microstructure evolution.
  • To understand how crowder molecules impact tracer transport in multicomponent mixtures.

Main Methods:

  • A two-dimensional multicomponent lattice gas model was employed.
  • Simulations analyzed tracer diffusion in the presence of sticky crowder molecules at varying temperatures and densities.

Main Results:

  • At high temperatures, miscibility and predictable transport were observed.
  • Intermediate temperatures showed phase-separated crowder clusters affecting tracer diffusivity non-monotonically.
  • Low temperatures led to kinetically arrested crowder obstacles, with scaling behavior near the percolation threshold.

Conclusions:

  • The model elucidates fundamental mechanisms of coupled diffusion, phase separation, and microstructural dynamics.
  • Results highlight the complex interplay governing transport and pattern formation in crowded environments.