Effect of Nonzero Solid Permittivity on the Electrical Repulsion between Charged Surfaces

The electrical repulsion between two charged solid surfaces separated by an electrolyte is studied as a function of the permittivity ϵs of the solid in the limit in which potentials are small, and the gap between the plane solid surfaces is small compared to the Debye length κ–1 within the electroly...

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Veröffentlicht in:Langmuir 2020-03, Vol.36 (10), p.2592-2600
Hauptverfasser: Sherwood, J.D, Ghosal, S
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description The electrical repulsion between two charged solid surfaces separated by an electrolyte is studied as a function of the permittivity ϵs of the solid in the limit in which potentials are small, and the gap between the plane solid surfaces is small compared to the Debye length κ–1 within the electrolyte. The solid surfaces are uniformly charged in a central region |x|< L outside which they are uncharged. When ϵs = 0, ions from the charge cloud between the charged surfaces spill out into regions of length O(κ–1) beyond x = ± L, thereby reducing the pressure between the surfaces from that predicted by Derjaguin–Landau–Verwey–Overbeek theory for infinite, uniformly charged surfaces. When ϵs>0, ions spill out over much larger O(L) regions, thereby reducing still further both the electrical potential between the solid surfaces and the repulsive force between them. However, this reduction becomes smaller as κL becomes large.
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The solid surfaces are uniformly charged in a central region |x|&lt; L outside which they are uncharged. When ϵs = 0, ions from the charge cloud between the charged surfaces spill out into regions of length O(κ–1) beyond x = ± L, thereby reducing the pressure between the surfaces from that predicted by Derjaguin–Landau–Verwey–Overbeek theory for infinite, uniformly charged surfaces. When ϵs&gt;0, ions spill out over much larger O(L) regions, thereby reducing still further both the electrical potential between the solid surfaces and the repulsive force between them. 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title Effect of Nonzero Solid Permittivity on the Electrical Repulsion between Charged Surfaces
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