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Xenon porometry: a novel method for the derivation of pore size distributions

✍ Scribed by Ville-Veikko Telkki; Juhani Lounila; Jukka Jokisaari

Publisher
Elsevier Science
Year
2007
Tongue
English
Weight
168 KB
Volume
25
Category
Article
ISSN
0730-725X

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✦ Synopsis

Xenon porometry is a novel method used for characterizing porous materials by the (129)Xe nuclear magnetic resonance of xenon gas. With the method, the diffusion of gas is slowed down by immersing the material in a medium, which can be in liquid or solid state during measurements. Because of slow diffusion, the signal of a xenon atom is characteristic of the properties of only one pore, and the composite signal of all atoms represents the distribution of properties. The method is especially applicable for determining pore size distribution because the chemical shifts of two different xenon signals (one from liquid and the other from gas pockets in solid) are dependent on pore size. Therefore, the shapes of these signals represent pore size distribution function. In addition, the porosity of the material can be determined by comparing the intensities of two signals. This article focuses on describing xenon signals observed from gas pockets in a solid medium, which has turned out to be most convenient for pore size determination.

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