Characterization of Porous Solids VI
Proceedings of the 6th International Symposium on the Characterization of Porous Solids (COPS-VI), Allicante, Spain, May 8 - 11 2002
Elsevier (Publisher)
Published on 14. November 2002
808 pages
978-0-08-052891-5 (ISBN)
Description
This book contains 99 of the papers that were presented at the 6th in the series of Symposia on Characterization of Porous Solids held in Alicante, Spain, May 2002. Written by leading international specialists in the subject, the contributions represent an up-to-date and authoritative account of recent developments around the world in the major methods used to characterize porous solids. The book is a useful work of reference for anyone interested in characterizing porous solids, such as MCM-41 mesoporous materials, pillared clays, etc. Papers on pore structure determination using gas adsorption feature strongly, together with papers on small angle scattering methods, mercury porosimetry, microcalorimetry, scanning probe microscopies, and image analysis.
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F. Rodriguez-Reinoso | B. McEnaney | Jean Rouquerol
Characterization of Porous Solids VI: Volume 144
Proceedings of the 6th International Symposium on the Characterization of Porous Solids (COPS-VI), Allicante, Spain, May 8 11 2002
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11/2002
Elsevier
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Content
- Front Cover
- Characterization of Porous Solids VI
- Copyright Page
- Contents
- Preface
- Committees
- Financial support
- Chapter 1. Scanning probe microscopies for the characterization of porous solids: strengths and limitations
- Chapter 2. Role of gas adsorption in nanopore characterization
- Chapter 3. Reconstruction method for the characterization of porous carbons
- Chapter 4. A new method for microporosity detection based on the use of the corrugated pore structure model (CPSM)
- Chapter 5. Physisorption in nanopores of various sizes and shapes: a Grand Canonical Monte Carlo simulation study
- Chapter 6. Induced porosity in cross-linked polymer networks: Mean field theory and simulations
- Chapter 7. Microbean small angle X-ray scattering (µSAXS): a novel technique for the characterization of activated carbon fibers
- Chapter 8. "Real time" determination of porosity development in carbons: a combined SAXS/TGA approach
- Chapter 9. SANS investigations of adsorption mechanisms in model porous silicas
- Chapter 10. Preparation and surface characterization of novel ceria-copper and ceria-manganese mixed oxides
- Chapter 11. About the exclusive mesoporous character of MCM-41
- Chapter 12. Incorporation of appropriate contact angles in textural characterization by mercury porosimetry
- Chapter 13. A two-stage Horvath-Kawazoe adsorption model for pore size distribution analysis
- Chapter 14. Textural and chemical characterization of NaX zeolite exchanged with Zn(ll) ions
- Chapter 15. Evaluation and comparison of the pore structure and related properties of particulate and monolithic silicas for liquid phase separation processes
- Chapter 16. Percolation phenomena in micropores: influence on single and multicomponent adsorption equilibria
- Chapter 17. Characterization of the surface chemistry of activated carbon by molecular simulation of water adsorption
- Chapter 18. Comparison of porous carbons developed via templating approaches
- Chapter 19. Simulation of adsorption in 3-D reconstructed mesoporous materials by a simulated annealing algorithm
- Chapter 20. Understanding adsorption hysteresis in porous glasses and other mesoporous materials
- Chapter 21. Structural studies of mesoporous alumina membranes by small angle X-ray scattering
- Chapter 22. Assessing microporosity by immersion microcalorimetry into liquid nitrogen or liquid argon
- Chapter 23. The lower closure point of the adsorption hysteresis loop of fluids in mesoporous silica materials
- Chapter 24. New metodologies in mercury porosimetry
- Chapter 25. Theoretical calculation of high micropore volumes on activated carbons
- Chapter 26. Assessment of ultramicroporosity on carbon molecular sieves by water adsorption
- Chapter 27. Active surface area of carbon materials determined by different methods
- Chapter 28. Heterogeneity of sewage sludge derived materials as a factor governing their performance as adsorbents of acidic gases
- Chapter 29. Evaluation of microporous structure of carbon molecular sieves using the pycnometric method
- Chapter 30. Characterization of porous carbonaceous sorbents using adsorption data in wide temperature and pressure ranges
- Chapter 31. Ammonia accessibility to the porosity of several activated carbons measured by flow adsorption microcalorimetry
- Chapter 32. An IGC and TA study of acetaldehyde adsorption on activated carbons
- Chapter 33. A novel approach for characterizing carbon catalysts by TAP experiments
- Chapter 34. Preparation of activated carbons with controlled pore size
- Chapter 35. Characterization of porous solids using low pressure VOC adsorption data
- Chapter 36. Energetics and mechanism of physical sorption by carbonaceous solids: Evaluation of surface area and porosity factors
- Chapter 37. Phenanthrene adsorption on a carbonaceous material: moisture and CO2 influence
- Chapter 38. Water adsorption on micro and mesoporous silicas
- Chapter 39. The effect of surface functionalization of mesoporous silicas with propylimidazol on porosity, pore connectivity and tortuosity
- Chapter 40. Preparation of porous silica by acid activation of metakaolins
- Chapter 41.The effect of particle shape on the filtration rate and shear strength quartz and dolomite mineral filter cakes
- Chapter 42. Characterisation of silica low-density xerogels in presence of additives by image analysis and nitrogen adsorption-desorption
- Chapter 43. Texture characterization of ultramacroporous materials using non-destructive methods
- Chapter 44. Formation of hierarchically ordered silicas prepared by spray drying of nanosized spheres
- Chapter 45. Ultrathin porous glass membranes with controlled texture properties
- Chapter 46. Reconstruction of mesoporous silica glass Gelsil® 50
- Chapter 47. Pore structural characteristics of mesostructured materials prepared under different conditions
- Chapter 48. A grand canonical Monte Carlo simulation study of water adsorption in a Vycor-like disordered mesoporous material at 300K
- Chapter 49. A review of the application of the BET equation to experimental data: the C parameter
- Chapter 50. Thermogravimetric and sorption measurement techniques/instruments
- Chapter 51. Influence of method of washcoat preparation on hydrothermal stability of alumina support
- Chapter 52. Limestone influence on PAH emissions from coal AFBC. Catalytic or/and adsorption effect?
- Chapter 53. Freezing point elevation in nanospace detected directly by atomic force microscopy
- Chapter 54. Is it possible to obtain a coherent image of the texture of a porous material?
- Chapter 55. Preparation and characterisation of Cr-Co spinels for methane oxidation in presence of sulphur compounds
- Chapter 56. Characterising the porous structure of Egyptian mortars using thermoporometry, mercury intrusion porometry and gas adsorption manometry
- Chapter 57. Monitoring fast pressure changes in gas transport and sorption analysis
- Chapter 58. Effect of coke deposition on catalyst texture during catalytic cracking reaction
- Chapter 59. Precision of porosity measurements on cementitious mortars
- Chapter 60. Freezing in mesopores: aniline in silica glasses and MCM-41
- Chapter 61. Transport characteristics of porous solids derived from chromatographic measurements
- Chapter 62. Effects of porous solid structures on the electrical behaviour: prediction key of transport properties in sedimentary reservoir rock
- Chapter 63. Pore and surface characteristics of porous melamine- and phenolic- formaldehyde polymers by sorption and XPS measurements
- Chapter 64. Porous structure of multifunctional mineral-carbon and zeolite-carbon sorbents
- Chapter 65. Waste air cleaning using activated carbon fibre cloths regenerable by direct electric heating
- Chapter 66. Adsorption of inflammatory cytokines and endotoxin by mesoporous polymers and activated carbons
- Chapter 67. Separation of adsorption isotherms of N2 in internal and interstitial nanopores of single-walled carbon nanohorn. A comparative study with experiment and simulation
- Chapter 68. Visualizing the porous structure of different carbon materials: a scanning tunneling microscopy study
- Chapter 69. Textural characterisation of activated carbons obtained from poly(ethylene terephthalate) by carbon dioxide activation
- Chapter 70. A Monte Carlo study on the structure of carbon dioxide adsorbed in microporous carbons
- Chapter 71. Preloading of GAC by natural organic matter: effect of surface chemistry on TCE uptake
- Chapter 72. Structural studies of saccharose- and anthracene-based carbons by high-energy X-ray scattering
- Chapter 73. The dynamic adsorption behaviour of volatile organic compounds on activated carbon honeycomb monoliths
- Chapter 74. Structural properties of Cu-MCM-41 and Cu-Al-MCM-41 (Si/Al=30) catalysts
- Chapter 75. Comparative study of the textural properties of alumina-pillared saponites synthesised from the intercalation with various aluminium oligomers
- Chapter 76. Chord length distribution and pore size distribution of porous VYCOR glass
- Chapter 77. A structural study of dehydration/rehydration of tobermorite, a model cement compound
- Chapter 78. Support mesoporosity: a tool for better control of catalytic behavior of cobalt supported Fischer Tropsch catalysts
- Chapter 79. Textural characterization of montmoriHonite pillared with aluminum/lanthanum polyoxycations
- Chapter 80 .Influence of pH in mesoporous silica aluminas (MSA) synthesis
- Chapter 81. The adsorption of l-hexene and 3,3-dimethyl-l-butene on Ru-MCM 41
- Chapter 82. XPS studies of MCM 41 postmodified by a Schiff base copper complex
- Chapter 83. Influence of synthesis conditions on surface heterogeneity of M41 type materials studied with lattice Monte Carlo
- Chapter 84. Porosity of chemically modified silica gels by nitrogen adsorption, positron annihilation and small angle X-ray scattering
- Chapter 85. Preparation and characterization of porous sorbents for hot gas desulfurization
- Chapter 86. Synthesis and characterization of MWW zeolites
- Chapter 87. Structural analysis of oxyanion-cation complexes anchored by organic group in mesoporous silicas
- Chapter 88. Adsorption equilibrium of polar/non-polar mixtures on MCM-41: experiments and Monte Carlo simulation
- Chapter 89. Nondestructive characterization of porous ceramics by X-ray refraction
- Chapter 90. lon-exchange properties of a novel layered titanium(IV) phosphate
- Chapter 91. The anomalous sorptive behaviour of ZSM-5 and Silicalite-l: observation of low pressure hysteresis in nitrogen adsorption
- Chapter 92. Characterization of the textural properties of chemically dealuminated Y zeolites
- Chapter 93. Complementarity of microcalorimetry, manometry and gravimetry in the study of gas adsorption by microporous solids up to 50 bar
- Chapter 94. The applicability of the Dubinin-Radushkevich equation to the very low pressure region of isotherms of various microporous solids
- Chapter 95. Controlled porosity and surface area titania gels as novel photocatalytic washcoats
- Chapter 96. The effect of geometry and axial orientation of spheroidal particles on the adsorption rate in a granular porous medium
- Chapter 97. The effect of Peclet on the Sherwood number in high porosity granular media
- Chapter 98. The application of Jäntti's method for the fast calculation of equilibrium in case of multilayer adsorption
- Chapter 99. Characterization of controlled pore glasses by small angle X-ray scattering and evaluation of the scattering data by the indirect Fourier transformation method
- Author Index
- Other volumes in the series
