Real-time measurement of residence times of gas molecules on solid surfaces

A new technique for measuring the surface residence times of gases under molecular flow conditions is described. A pulse of molecules is passed through a cylindrical tube where the molecules undergo multiple collisions with the wall. The transit time, measured using a mass spectrometer, is governed...

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Bibliographic Details
Published in:Chemical physics letters 1997-08, Vol.275 (3), p.253-260
Main Authors: Koch, Thomas G., Fenter, Frederick F., Rossi, Michel J.
Format: Article
Language:English
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Summary:A new technique for measuring the surface residence times of gases under molecular flow conditions is described. A pulse of molecules is passed through a cylindrical tube where the molecules undergo multiple collisions with the wall. The transit time, measured using a mass spectrometer, is governed by gas kinetic theory and the magnitude of the gas-surface interaction per collision or surface residence time. Monte Carlo trajectory calculations of molecules diffusing across the tube were in excellent agreement with experimental results on non-interacting gases. Potentially sticky gases, such as H 2O, HCl and NO 2, as well as a number of ideal gases were investigated on three materials commonly used in vacuum science: pyrex glass, stainless steel and teflon. No deviation from ideal gas behaviour was observed for H 2O, HCl and NO 2 on teflon whereas we had to invoke a two-site adsorption model for both H 2O and HCl interacting with pyrex and stainless steel.
ISSN:0009-2614
1873-4448
DOI:10.1016/S0009-2614(97)00764-1