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20171111234655.0 |
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090811e200903uuxxka |s|||||||0|0 eng|d |
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|a 9781847559418:
|c £140.85
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|a 1847559417:
|c £140.85
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|a 2042-0625
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| 040 |
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|a UK-WkNB
|b eng
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| 245 |
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0 |
|a Characterisation of porous solids VIII
|b Proceedings of the 8th International Symposium on the Characterisation of Porous Solids /
|c Edited by Nigel Seaton [et al.].
|
| 260 |
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|a Cambridge,
|b Royal Society of Chemistry,
|c 2009.
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| 300 |
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|a 746 p. :
|b 276 b&w, ill., 95.
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| 500 |
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|a Electronic book text.
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| 505 |
0 |
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|a Chapter 1: Pore accessibility in nanoporous carbons: experiment, theory and simulation-- Chapter 2: Characterization Measurements of Common Reference Nanoporous Materials by Gas Adsorption (Round Robin Tests)-- Chapter 3: Competitive naphthalene adsorption on activated carbons: effect of porosity and hydrophobicity-- Chapter 4: Study of Hydrogen Sulphide Adsorption on MIL-47(V) and MIL-53(Al, Cr, Fe) Metal-Organic Frameworks by Isotherms Measurements and in-situ IR Experiments-- Chapter 5: H2 Adsorption in Pristine and Li-Doped Carbon Replicas of FAU and EMT Zeolites-- Chapter 6: Comparative Analysis of Low-Temperature Nitrogen and Argon Adsorption on Nonporous and Mesoporous Siliceous Materials-- Chapter 7: Characterization of Microporous Carbons: From Mathematical Modeling to Atomistic Construction-- Chapter 8: Hybrid Reverse Monte Carlo Simulations of Microporous Carbons-- Chapter 9: Can Chemometrics Provide Useful Data About Porous Solids Characterization?-- Chapter 10: Origin of the Variation of Adsorption and Diffusion Properties of Zeolite 5A-- Chapter 11: Assessing Generic Force Fields to Describe Adsorption on Metal-organic Frameworks-- Chapter 12: A Method for Predicting the Diffusion Coefficient Based on the Physical Characterisation of Porous Carbons by Adsorption-- Chapter 13: Positron Lifetime Spectroscopy on Controlled Pore Glass-- Chapter 14: Dynamic Mean Field Theory for Fluids Confined in Porous Materials: Application to an Inkbottle Pore Geometry-- Chapter 15: Characterization of Single Wall Carbon Nanohorns Restructured with Mechanical Treatment-- Chapter 16: Adsorption Characterisation of Energy Gases on Microporous Coordination Polymers-- Chapter 17: Post-Synthesis Modification of a Metal-Organic Framework with Silver Ions-- Chapter 18: Optimizing H2 volumetric storage capacity of carbon materials for mobile applications-- Chapter 19: Tailoring carbon gels for their use in the energy sector-- Chapter 20: Investigation on the structure of silica/polyurethane nanocomposites-- Chapter 21: Narrow microporosity characterization in polyaramid-derived carbons by adsorption of N2, CO2 and organic vapors-- Chapter 22: Monoliths: Synthesis and Characterization Using Lignocellulosic Precursor-- Chapter 23: Microporosity of activated carbons obtained from PET-- Chapter 24: Low Pressure Hysteresis in the Nitrogen Adsorption Isotherm of ZSM-5: Effect of Acid Treatment-- Chapter 26: In species and structural properties of In-exchanged ZSM5 and Mordenite-- Chapter 27: The Properties of Virtual Solids using Monte Carlo Integration and their Value to the Nano-Scientist-- Chapter 28: Computer Simulation of Enantioselective Adsorption in a Simple Model of Molecularly Imprinted Polymers-- Chapter 29: Mixed Geometry Characterization of Activated Carbons PSD-- Chapter 30: Modified BET equation for determination of micropore pore-volume and mesopore surface area in microporous-mesoporous solids-- Chapter 31: Characterisation of Nanostructured macro-mesoporous TiO2-ZrO2 impregnated by noble metals for VOC oxidation-- Chapter 32: Visualisation of dynamic adsorption by 2D x-ray radiography and 3D x-ray -tomography-- Chapter 33: Supercritical Methane Adsorption - A Tool For Characterization of Carbonaceous Adsorbents-- Chapter 34: The Adsorption of Triacetin on Activated Carbon-- Chapter 35: Adsorption of CO2 on Carbonaceous Adsorbents-- Chapter 36: Characterization of Various Micro and Mesoporous Materials for Toluene Adsorption at Low and High Concentration-- Chapter 37: Computer assisted design of porous solids for VOCs emission control by adsorption in vehicle cold start-- Chapter 38: The use of silica-alumina mixed oxides with well defined surface characteristics and porosities for the transformation of renewable feedstocks into value added chemicals-- Chapter 39: Designing (Al-)SBA-15 catalyst pellets with unique properties-- Chapter 40: Capillary Condensation and Sorption Hysteresis of Toluene, Methylcyclohexane and Neopentane on MCM-41 and MCM-48-- Chapter 41: Pore Structure and Morphology of Mesoporous Silicate and Aluminosilicate Molecular Sieves by Nitrogen Adsorption, AFM and PALS-- Chapter 42: Transport in SiO2-Catalyst Supports: A Contribution to Process Intensification-- Chapter 43: Surface, Acidic and Catalytic Properties of Sulfated Titanium Oxides-- Chapter 44: A Comparative Study of Sulfated and Phosphated Titanium Oxides Prepared by Hydrolysis From Titanium Ethoxide-- Chapter 45: Correlation of Surface Texture, Catalytic Activity and Crystal Morphology for Ternary Mixed Metal Oxides-- Chapter 46: Synthesis and Characterization of Al/Ce Incorporated Mesoporous Molecular Sieves-- Chapter 47: Surface nature and structure of limestone powder - evaluation of properties using sorption and standard techniques-- Chapter 48: Investigation of the microstructure of ultra high performance concrete-- Chapter 49: Determination of Surface Area, Porosity and Surface Properties of Lunar Regolith-- Chapter 50: The use of starch-based biopolymer additives for the preparation of porous ceramics-- Chapter 51: Iron Fixation to the Fibers of Activated Carbon as an Alternative to the Fenton Process-- Chapter 52: A Relationship Between Pore Shapes and Mercury Porosimetry Curves as Revealed by Random Pore Networks-- Chapter 53: Physicochemical characterization of nanostructured tungsten oxide: porous clusters and nanowires-- Chapter 54-- Positron Porosimetry Study of Mechanical Stability of Ordered Mesoporous Materials-- Chapter 55: Characterisation of modified porous silica by inverse gas chromatography-- Chapter 56: Structural distinction of silica gels using FTIR and Raman spectroscopy-- Chapter 57: The Poisson ratio of porous materials.
|
| 650 |
|
7 |
|a Materials science.
|
| 650 |
|
7 |
|a Analytical chemistry.
|
| 650 |
|
7 |
|a Inorganic chemistry.
|
| 700 |
1 |
|
|a Llewellyn, Philip.
|
| 856 |
4 |
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|a Kaskel, Stefan.
|u http://dx.doi.org/10.1039/9781847559418
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| 952 |
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|a CY-NiOUC
|b 5a0461cb6c5ad14ac1ee5ead
|c 998a
|d 945l
|e -
|t 1
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|z Books
|
