A New Technique for Auger Analysis of Surface Species Subject to Electron-Induced Desorption

Abstract

A method is presented to observe surface species subject to electron‐induced desorption by Auger electron spectroscopy. The surface to be examined is moved under the electron beam at constant velocity, establishing a time‐independent condition and eliminating the time response of the electron spectrometer as a limiting factor. The dependence of the Auger signal on the sample velocity, incident electron current, beam diameter, and desorption cross section is analyzed. It is shown that it is advantageous to analyze the moving sample with a high beam current, in contrast to the usual practice of using a low beam current to minimize desorption from a stationary sample. The method is illustrated by the analysis of a friction transfer film of PTFE, in which the fluorine is removed by electron‐induced desorption. The method is relevant to surface studies in the field of lubrication and catalysis.