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Related Concept Videos

Colloids03:22

Colloids

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Children at play often make suspensions such as mixtures of mud and water, flour and water, or a suspension of solid pigments in water known as tempera paint. These suspensions are heterogeneous mixtures composed of relatively large particles that are visible to the naked eye or can be seen with a magnifying glass. They are cloudy, and the suspended particles settle out after mixing. On the other hand, a solution is a homogeneous mixture in which no settling occurs and in which the dissolved...
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Effects of Chemicals: Overview01:27

Effects of Chemicals: Overview

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Drugs, encompassing various chemical compounds from natural sources, lab synthesis, or genetic engineering, elicit different biological responses in living organisms. Some of these responses are desirable or therapeutic, while others are undesirable. The primary goal of administering a drug is to achieve a therapeutic effect, that is, to address a specific disease or health condition. Any concurrent effects outside of this therapeutic outcome are considered undesirable. These undesirable...
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Spherical Coordinates01:23

Spherical Coordinates

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Spherical coordinate systems are preferred over Cartesian, polar, or cylindrical coordinates for systems with spherical symmetry. For example, to describe the surface of a sphere, Cartesian coordinates require all three coordinates. On the other hand, the spherical coordinate system requires only one parameter: the sphere's radius. As a result, the complicated mathematical calculations become simple. Spherical coordinates are used in science and engineering applications like electric and...
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Inductive Effects on Chemical Shift: Overview01:27

Inductive Effects on Chemical Shift: Overview

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The protons in unsubstituted alkanes are strongly shielded with chemical shifts below 1.8 ppm. Methine, methylene, and methyl protons appear at approximately 1.7, 1.2 and 0.7 ppm, while the proton signal from methane appears at 0.23 ppm. An electronegative substituent, such as chlorine, withdraws the electron density from the protons, increasing their chemical shift. Progressive substitution of the hydrogens in methane by chlorine shifts the proton signals increasingly downfield, to 3.05 ppm in...
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Ionic Strength: Effects on Chemical Equilibria01:19

Ionic Strength: Effects on Chemical Equilibria

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The addition of an inert ionic compound increases the solubility of a sparingly soluble salt. For example, adding potassium nitrate to a saturated solution of calcium sulfate significantly enhances the solubility of calcium sulfate. Le Châtelier's principle cannot predict this shift in the equilibrium. Instead, this could be explained in terms of changes in the effective concentration of the ions in solution in the presence of added inert salt.
In this solution, the primary...
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Thermodynamics: Chemical Potential and Activity01:10

Thermodynamics: Chemical Potential and Activity

1.7K
The effective concentration of a species in a solution can be expressed precisely in terms of its activity. Activity considers the effect of electrolytes present in the vicinity of the species of interest and depends on the ionic strength of the solution. The activity of a species is expressed as the product of molar concentration and the activity coefficient of the species.
The thermodynamic equilibrium constant is more accurately defined in terms of activity rather than concentration.
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Synthesis and Characterization of Supramolecular Colloids
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Synthesis and Characterization of Supramolecular Colloids

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Effective squirmer models for self-phoretic chemically active spherical colloids.

M N Popescu1,2, W E Uspal3,4, Z Eskandari3,4

  • 1Max-Planck-Institut für Intelligente Systeme, Heisenbergstr. 3, D-70569, Stuttgart, Germany. popescu@is.mpg.de.

The European Physical Journal. E, Soft Matter
|December 21, 2018
PubMed
Summary
This summary is machine-generated.

Chemically active colloids exhibit self-motility, often modeled as hydrodynamic squirmers. However, their collective behavior near boundaries deviates significantly from simple squirmer models, requiring detailed analysis of hydrodynamic interactions.

Keywords:
Topical issue: Flowing Matter, Problems and Applications

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Area of Science:

  • Colloid Science
  • Fluid Dynamics
  • Chemical Physics

Background:

  • Self-motility of chemically active colloids in Newtonian fluids is often simplified using models of chemical activity and phoretic-slip boundary conditions.
  • For simple shapes at low Reynolds numbers, these models map to hydrodynamic squirmers, enabling

Purpose of the Study:

  • To illustrate the mapping of chemically active particles to hydrodynamic squirmers within self-diffusiophoresis.
  • To demonstrate how the presence of boundaries or other particles alters the behavior of active colloids compared to unbounded fluid models.

Main Methods:

  • Modeling chemically active colloids using phoretic-slip hydrodynamic boundary conditions.
  • Analyzing particle-particle collisions and behavior near boundaries in self-diffusiophoresis.
  • Comparing the dynamics of active colloids with effective squirmer models in unbounded fluids.

Main Results:

  • Chemically active particles in unbounded fluids can be effectively modeled as hydrodynamic squirmers.
  • The behavior of active colloids near boundaries or in confined geometries deviates qualitatively from effective squirmer predictions.
  • Hydrodynamic interactions are strongly dependent on the distribution of chemical species, influencing collective behavior.

Conclusions:

  • Simple squirmer models are insufficient for describing the collective behavior and confined dynamics of chemically active colloids.
  • Accurate prediction of active colloid dynamics requires explicit consideration of chemical species distribution and its impact on hydrodynamic interactions.
  • Understanding emergent behaviors necessitates moving beyond simplified effective models to account for detailed surface chemistry and fluid interactions.