UID:
almahu_9948026641002882
Format:
1 online resource (699 p.)
Edition:
1st ed.
ISBN:
1-281-04713-9
,
9786611047139
,
0-08-052889-9
Series Statement:
Studies in surface science and catalysis ; 128
Content:
The Fifth International Symposium on the Characterisation of Porous Solids (COPS-V) was held at Heidelberg, Germany, from May 30 to June 2, 1999. About 220 participants from 25 countries enjoyed a very successful meeting with 32 lectures and 155 poster presentations. The Symposium started with a highly stimulating lecture by Sir John Meurig Thomas, Cambridge, highlighting the recent developments in engineering of new catalysts. The following two full sessions were devoted to theory, modelling and simulation which provide the basis for the interpretation of pore structural data of adsorbe
Note:
Description based upon print version of record.
,
Cover; Contents; Foreword; Scientific Committee; Financial Support; Part I: Theory, Modelling and Simulation; Chapter 1. Adsorption of Argon and Xenon in Silica Controlled Porous Glass: A Grand Canonical Monte-Carlo Study; Chapter 2. The role of isosteric enthalpy of adsorption in micropore characterisation: A simulation study; Chapter 3. Capillary Condensation and Hysteresis in Disordered Porous Materials; Chapter 4. Molecular Simulation Study on Freezing in Nano-pores; Chapter 5. Characterisation of porous materials using density functional theory and molecular simulation
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Chapter 6. Density Functional Theory of Adsorption Hysteresis and Nanopore CharacterizationChapter 7. Characterization of controlled pore glasses: Molecular simulations of adsorption; Chapter 8. A new method for the accurate pore size analysis of MCM-41 and other silica based mesoporous materials; Chapter 9. Comparison of the experimental isosteric heat of adsorption of argon on mesoporous silica with density functional theory calculations; Chapter 10. A computational exploration of cation locations in high-silica Ca-Chabazite
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Chapter 11. Density functional theory: Diatomic nitrogen molecules in graphite poresChapter 12. Modelling studies of the influence of macroscopic structural heterogeneities on nitrogen sorption hysteresis; Chapter 13. Condensation-evaporation processes in simulated heterogeneous three-dimensional porous networks; Chapter 14. Characterisation of porous solids for gas transport; Chapter 15. Experimental and simulation studies of melting and freezing in porous glasses; Chapter 16. A fast two-point method for gas adsorption measurements; Part II: Highly Ordered Porous Inorganic Systems
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Chapter 17. Rational design, tailored synthesis and characterisation of ordered mesoporous silicas in the micron and submicron size rangeChapter 18. Relationship between intrinsic pore-wall corrugation and adsorption hysteresis of N2, O2, and Ar on regular mesopores; Chapter 19. Study of the morphology of porous silica materials; Chapter 20. Adsorption hysteresis and criticality in regular mesoporous materials; Chapter 21. Comprehensive structural characterisation of MCM-41: From mesopores to particles; Chapter 22. Characterisation of mesoporous MCM-41 adsorbents by various techniques
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Chapter 23. Characterisation of mesoporous molecular sieves containing copper and zinc: An adsorption and TPR studyChapter 24. On the applicability of the Horwath-Kawazoe method for pore size analysis of MCM-41 and related mesoporous materials; Chapter 25. Dynamic and structural properties of confined phases (hydrogen, methane and water) in MCM-41 samples (19Å, 25Å and 40Å); Chapter 26. Estimating pore size distribution from the differential curves of comparison plots
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Chapter 27. Rotational state change of acetonitrile vapor on MCM-41 upon capillary condensation with the aid of time-correlation function analysis of IR spectroscopy
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English
Additional Edition:
ISBN 0-444-50259-9
Language:
English
