Surface Forces Apparatus

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The surface forces apparatus (SFA) is an instrument developed by Israelachvili and Adams for measuring the forces between two surfaces at small separations. The SFA has angstrom precision for the separation distances of microns down to contact [1]. The challenges of such a measurement are accurately determining the distance between the surfaces and the forces applied. The SFA uses interferometry to obtain the distance between the surfaces and a spring to calculate the force applied.[2]

One of the ingenious things about the SFA is the geometry of surfaces used. The classic SFA surface geometry is two cylinders brought together perpendicularly (forming an x-shape). The forces between two crossed cylinders are locally equivalent to the forces between two spheres [1]. Two cylinders should be easier to align than two spheres.

A drawback to the SFA is its reliance on molecularly smooth and semi-transparent materials. Many studies are performed on mica [2]. Tonck et al. adapted the SFA for opaque surfaces in 1988 [1].


As of November 2009, many labs around the world were actively using SFA for research. Here are a few:

Swiss Federal Institute of Technology

National University of Mexico

University of Illinois at Urbana-Champaign

KTH Royal Institute of Technology (Sweden)


[1] Jacob Israelachvili. Intermolecular & Surface Forces (Academic Press, London, 1992).

[2] Yuncheng Liang, Nidal Hilal, Paul Langston, and Victor Starov, "Interaction Forces between Colloidal Particles in Liquid: Theory and Experiment" Advances in Colloid and Interface Science 134-135, 151-166 (2007).