Téléchargez le livre : Surface Area and Porosity Determinations by Physisorption

Surface Area and Porosity Determinations by Physisorption

Measurement, Classical Theories and Quantum Theory'

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Elsevier Science


Paru le : 2006-07-21



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Description
Surface Area and Porosity Determinations by Physisorption is a practical guide for industry or academics to the measurement of surface area and pore size using the tool of physical adsorption. Starting with a brief description of what physical adsorption is and the raw data that is obtained. The instrumentation for measuring this isotherm is described in some details. Recommendations are presented as to what instrumentation would be most appropriate for a particular application. An appendix of current commercial instruments is included. The mathematics required for the simple analysis of the obtained isotherm is presented with step-wise instructions for the analysis of the more useful analysis methods. Subsequent chapters describe the analyses and the theories behind the analyses in more detail.* Includes over 150 figures and tables which illustrate the equipment and examples data acquired * Provides a practical guide for measuring and interpreting physical adsorption * Up-to-date aspects of the more subtle physical adsorption theories such as density functional theory and the quantum mechanical chi theory are presented
Pages
296 pages
Collection
n.c
Parution
2006-07-21
Marque
Elsevier Science
EAN papier
9780444519641
EAN EPUB SANS DRM
9780080481265
Informations sur l'ebook
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Prix
174,07 €
Professor James B. Condon of Roane State Community College Harriman in Tennessee received his PhD from Iowa State University in Surface Chemistry. He has had 25 years' experience working in the Oak Ridge facilities as a senior researcher in the areas of surface physics, solid state kinetics, and electrochemistry. He also worked for nine years as guest physicist at the German national lab, Forschungszentrum Jülich. He has authored about 100 open literature publications and about 500 hundred classified publications in these areas. He formulated the quantum mechanical hypothesis that is referred to as the "chi hypothesis of physical adsorption.

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