Title of article
Theoretical investigation of van der Waals forces between solid surfaces at nanoscales
Author/Authors
Kudryavtsev، نويسنده , , Yaroslav V. and Gelinck، نويسنده , , Edwin and Fischer، نويسنده , , Hartmut R.، نويسنده ,
Issue Information
هفته نامه با شماره پیاپی سال 2009
Pages
8
From page
2580
To page
2587
Abstract
A theoretical investigation of van der Waals forces acting between two solid silicon surfaces at separations from zero to approximately 20 nm is presented. We focused our efforts on the analysis of different factors that can cause deviations from the classical pressure–distance dependence p ∼ 1/D3. It is demonstrated that a layer (oxide or water) at any of the surfaces influences the pressure up to distances, which are an order of magnitude larger than its own thickness. A jump on the p(D) curve is expected at contact of the adsorbed liquid layers. The retardation of van der Waals forces at 5 < D < 20 nm has the similar effect on the pressure as 1 nm oxide layers. At the far end of this range the pressure decreases by 30% due to the retardation. Nanoscale roughness plays a great role when the surfaces are close-to-contact, the crucial factor is the height distribution of asperities. However, their curvature and surface density are also important, as well as the amount of adsorbed water.
Keywords
Semi-empirical models and model calculations , van der Waals force , sticking , Silicon oxides , and topography , surface structure , Roughness , morphology , Silicon
Journal title
Surface Science
Serial Year
2009
Journal title
Surface Science
Record number
1704885
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