Handbook of Layered MaterialsFocusing on layered compounds at the core of materials intercalation chemistry, this reference comprehensively explores clays and other classes of materials exhibiting the ability to pillar, or establish permanent intracrystalline porosity within layers. It offers an authoritative presentation of their fundamental properties as well as summaries of |
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Page viii
... crystalline silicic acids ) . Discussion of their synthesis and / or natural occurrence , characteri- zation , host - guest chemistry including pillaring , and their adsorptive and catalytic applications are all included . The content ...
... crystalline silicic acids ) . Discussion of their synthesis and / or natural occurrence , characteri- zation , host - guest chemistry including pillaring , and their adsorptive and catalytic applications are all included . The content ...
Page x
... 509 Chris O. Oriakhi and Michael M. Lerner 11. Alkali Silicates and Crystalline Silicic Acids Wilhelm Schwieger and Gerhard Lagaly 541 Index 631 Contributors Pilar Aranda Consejo Superior de Investigaciones Cientificas ( CSIC X Contents.
... 509 Chris O. Oriakhi and Michael M. Lerner 11. Alkali Silicates and Crystalline Silicic Acids Wilhelm Schwieger and Gerhard Lagaly 541 Index 631 Contributors Pilar Aranda Consejo Superior de Investigaciones Cientificas ( CSIC X Contents.
Page 19
... crystalline morphology . At higher tempera- tures , sepiolites and palygorskites are known to undergo a crystal folding that decreases the surface areas to about 120-160 m2 / g ( 4 ) . B. N2 Isotherms Reference ( 4 ) provides detailed ...
... crystalline morphology . At higher tempera- tures , sepiolites and palygorskites are known to undergo a crystal folding that decreases the surface areas to about 120-160 m2 / g ( 4 ) . B. N2 Isotherms Reference ( 4 ) provides detailed ...
Page 44
... crystalline clay swelling was attributed to the interlayer water content . This interlayer space of a TOT clay mineral is the space between two parallel silicate layers , sandwiched by two oxygen planes of siloxane groups . The clay ...
... crystalline clay swelling was attributed to the interlayer water content . This interlayer space of a TOT clay mineral is the space between two parallel silicate layers , sandwiched by two oxygen planes of siloxane groups . The clay ...
Page 65
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Contents
1 | |
39 | |
ClayOrganic Interactions Organoclay Complexes and PolymerClay Nanocomposites | 91 |
Sorption of Nitroaromatic Compounds on Clay Surfaces | 155 |
Photoprocesses in ClayOrganic Complexes | 191 |
Pillared Clays and Porous Clay Heterostructures | 261 |
Layered aZirconium Phosphates and Phosphonates | 313 |
Layered Double Hydroxides LDHs | 373 |
Layered Manganese Oxides Synthesis Properties and Applications | 475 |
Layered Metal Chalcogenides | 509 |
Alkali Silicates and Crystalline Silicic Acids | 541 |
Index | 631 |
Other editions - View all
Handbook of Layered Materials Scott M. Auerbach,Kathleen A. Carrado,Prabir K. Dutta Limited preview - 2004 |
Handbook of Layered Materials Scott M. Auerbach,Kathleen A. Carrado,Prabir K. Dutta Limited preview - 2004 |
Handbook of Layered Materials Scott M. Auerbach,Kathleen A. Carrado,Prabir K. Dutta No preview available - 2004 |
Common terms and phrases
a-ZrP activity adsorbed adsorption alkyl anions applications aqueous atoms basal spacing birnessite calcination Catal catalysts charge density Chem Chem Mater Chem Soc chemical chemistry Clay Miner Clays Clay Miner Colloid complexes crystal diffraction electron energy exchangeable cations FIGURE films formation Fripiat function G Lagaly galleries guest hydrophobic hydrotalcite hydroxide Inorg inorganic interactions intercalation compounds interlayer space ion exchange isotherms kanemite kaolinite kenyaite Kuroda Langmuir layered silicate magadiite manganese oxide Mater Chem materials mechanism mesoporous metal ions method Microporous molecular montmorillonite nanocomposites octahedral organic oxygen particles phase phosphate Phys Chem pillared clays polymer polymerization pore porous porphyrin prepared properties protons reaction Ruiz-Hitzky saponite sepiolite silicate hydrates silicate layers silicic acids simulation SiO2 smectites sodium solid solution sorption species spectra structure studies surface area surfactant synthesis temperature tetrahedral thermal tion vermiculite water molecules X-ray xH2O zeolite
Popular passages
Page 1 - Government retains for itself, and others acting on its behalf, a paid-up, nonexclusive, irrevocable worldwide license in said article to reproduce, prepare derivative works, distribute copies to the public, and perform publicly and display publicly, by or on behalf of the Government.
Page 279 - In recent years a number of investigations have been carried out to study adsorption in pillared clays, almost all of which are experimental in nature.
Page 308 - Zeolite Synthesis," ACS Symp. Ser. 398 (1989) 11. [78] JC Jansen in [14, p. 77]. [79] EJP Feijen, JA Martens, PA Jacobs in J. Weitkamp, HG Karge, H. Pfeifer, W. Holderich (eds.): "Zeolites and Related Microporous Materials: State of the Art 1994,
Page 36 - KSW Sing, DH Everett, RAW Haul, L. Moscou, RA Pierotti, J. Rouquerol and T. Siemieniewska, Pure Appl. Chem., 57 (1985) 603.
Page 34 - Laboratory was supported by the US Department of Energy, Office of Basic Energy Sciences, Division of Chemical Sciences, Geosciences, and Biosciences, under DOE Contract No.
Page 1 - The term clay refers to a naturally occurring material composed primarily of fine-grained minerals, which is generally plastic at appropriate water contents and will harden when dried or fired.
Page 252 - A. Juris, V Balzani, F. Barigelletti, S. Campagna, P. Belser, A. Von Zelewsky, Coord Chem. Rev. 84, 85 (1988).
Page 266 - Adjacent layers are stacked in such a way that the potassium ion is equidistant from 12 oxygens, 6 of each layer (Fig.
Page 25 - Walling 34 suggests a similar definition for the acid strength as the ability of the surface to convert an adsorbed neutral base to its conjugate acid where Ho =-log(aAfB/ fAfi) (2) Where now, aA is the activity of the Lewis acid or electron acceptor.
Page 150 - A. Usuki, , Y. Kojima, M. Kawasumi, A. Okada, Y. Fukushima, T. Kurauchi, and O. Kamigaito, J. Mater. Res.