4 edition of Modelling of Structure and Reactivity in Zeolites found in the catalog.
Modelling of Structure and Reactivity in Zeolites
C. R. A. Catlow
by Academic Press
Written in English
|The Physical Object|
|Number of Pages||320|
Some synthetic zeolites–lime systems were also studied, analyzing the effect of zeolite addition on mechanical properties [18,19]. In a lime/zeolite system, different simultaneous reactions and equilibria occur, e.g., for a lime/Na–zeolite system: (a) Dissolution of solid (s) Ca(OH) 2 and related dissociation equilibria. The framework, or structure, of zeolites is made up of aluminum, silicon, and oxygen atoms. These atoms form tiny holes (often referred to as cages). The tiny holes can trap molecules (which are also very small). Because we cannot see the cages of a zeolite, in this activity, you will be making models of a zeolite.
Carbon particles with spherical, tubular, mesostructured and 3D-ordered macroporous structures are examples of hard templates used for the synthesis of MFI-type hierarchical zeolite [25,26,27,28]. However, HT approaches are relatively few in number for zeolites with MWW topologies [ 29 ]. (source: Nielsen Book Data) Summary Zeolites are microporous crystalline solids with well-defined structures. Generally they contain silicon, aluminium and oxygen in their framework and cations, water and/or other molecules within their pores. Many occur naturally as minerals, and are extensively mined in many parts of the world.
The synthesis of zeolites with desired structure and properties is of great importance for the preparation of highly active and selective catalysts for inorganic and organic reactions. The zeolite matrix offers unique possibilities for carrying out molecular shape-selective catalysis and this places the zeolite matrices among the most successful tools used in molecular . This indispensable two-volume handbook covers everything on this hot research field. The first part deals with the synthesis, modification, characterization and application of catalytic active zeolites, while the second focuses on such reaction types as cracking, hydrocracking, isomerization, reforming and other industrially important topics. Edited by a highly experienced .
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Buy Modelling of Structure and Reactivity in Zeolites on FREE SHIPPING on qualified orders Modelling of Structure and Reactivity in Zeolites: Catlow, C.
A.: : Books. Modelling of structure and reactivity in zeolites. Academic, © (OCoLC) Material Type: Internet resource: Document Type: Book, Internet Resource: All Authors / Contributors: C R A Catlow.
Modeling of Structure and Reactivity in Zeolites by C. Catlow,available at Book Depository with free delivery worldwide. Journals & Books; Help both forcefield and electronic structure techniques to the study of problems in structure, sorption, synthesis, and reactivity of both zeolites and microporous aluminophosphates.
In particular, the chapter describes how simulation techniques may yield detailed and accurate information of the structure, and energies Cited by: Both perform well in modelling structures of zeolites  although interestingly, a recent careful evaluation of energy minimised compared to high quality crystallographic data  suggested that the earlier formal charge model of Sanders et al.
 generates the most accurate by: This volume provides the reader with the most up-to-date and relevant knowledge on the reactivity of metals located in zeolite materials, either in framework or extra-framework positions, and the way it is connected with the nature of the chemical environment provided by the host.
1 Zeolites: Structure, Synthesis and Properties—An Introduction 1 C.R.A. Catlow 2 The Prediction of Zeolite Structures 19 G.D.
Price, LG. Wood and D.E. Akporiaye 3 Lattice Energy and Free Energy Minimization of Zeolites 43 R.A. Jackson, S.C. Parker and P. Tschaufeser 4 Computer Simulations of the Structure, Thermochemistry and. Purchase Structure and Reactivity of Modified Zeolites, Volume 18 - 1st Edition.
Print Book & E-Book. ISBNModelling of structure and reactivity in zeolites (C.R.A. Catlow et al.). Geometry of the active sites in zeolites under working conditions (F.
Fajula). Host-guest interactions in zeolite cavities (A. Zecchina et al.). Diffusion in zeolites and other microporous solids (D.M.
Ruthven). Zeolites as the key matrix for superior deNOx catalysts (T. The proposal of new procedures for zeolite synthesis, the development of novel and sophisticated physical techniques for zeolite characterization, the discovery of new zeolitic and related microporous materials, progresses in quantum chemistry and molecular modeling of zeolites, and the application of zeolites as catalysts for organic reactions.
To address this, a detailed density functional theory (DFT) investigation of the reactivity of the acid sites in the zeolite chabazite was performed. Energies of adsorption of bases, deprotonation energies, and vibrational frequencies were calculated on a periodic chabazite (SSZ) model with various loadings of acid sites per unit cell, and.
Book Review. Review of Modelling of Structure and Reactivity in Zeolite, by C. Catlow. Feuston, Bradley P. Abstract. Publication: Journal of Solid State Chemistry France.
Pub Date: January DOI: /jssc Bibcode: JSSChF full Author: Bradley P. Feuston. A novel route for the introduction of well-defined zinc species into ZSM-5 zeolite via chemical vapor deposition of dimethylzinc (CVD(DMZ)) is explored.
The structural properties and catalytic reactivity of the synthesized material (Zn/ZSMCVD(DMZ)) are investigated against a set of Zn/ZSM-5 catalysts prepared by incipient wetness impregnation (IWI), ion exchange (IE), and.
His research interests comprise: synthesis of zeolites, mesoporous and novel nano-structured materials, physical chemistry of sorption and catalysis, and investigation of the role of porous catalysts in transformations of hydrocarbons and their derivatives.
Jiri Cejka is co-author of about research papers and co-editor of 5 s: 1. Intensive research on zeolites, during the past thirty years, has resulted in a deep understanding of their chemistry and in a true zeolite science, including synthesis, structure, chemical and physical properties, and catalysis.
These studies are. Zeolites are known to serve as molecule traps that can be used to isolate certain molecules in order to analyze them.
Furthermore, zeolites can also be used as sorbents and catalysts. The well-defined pore structures of the zeolite, along with their adjustable acidity, makes them highly reactive in several categories of chemical reactions. Zeolites are also widely used as catalysts and sorbents.
Their well-defined pore structure and adjustable acidity make them highly active in a large variety of reactions. Zeolites have the potential of providing precise and specific separation of gases, including the removal of H 2 O, CO 2 and SO 2 from low-grade natural gas streams.
Metal cations can be introduced into a zeolite at the synthesis stage as well as via various methods of zeolite modification (such as liq.- or solid-state ion-exchange technique, chem.
vapor deposition). There are now a no. of unique catalysts (esp. MFI zeolites-based ones) showing high activity and selectivity in the diverse processes. Dr. Zones has been a co-inventor on more than patents and a co-author on more than journal publications.
He has also been a frequent speaker and participant in the zeolite conferences around the world, and is a mentoring collaborator for elements of zeolite research programs at several universities. ISBN: OCLC Number: Description: ix, pages: illustrations (some color) ; 25 cm.
Contents: Background and recent advances in Ti-containing zeolite materials --General aspects on structure and reactivity of framework and extra-framework metals in zeolite materials --Characterization of metal centres in zeolites for partial oxidation reactions.
Activation of Hydrocarbons in Zeolites: The Role of Dispersion Interactions. Molecular‐Level Understanding of Complex Catalytic Reactions: MTO Process. Molecular Recognition and Confinement‐Driven Reactivity. Structural Properties of Zeolites: Framework Al Distribution and Structure and Charge Compensation of Extra‐framework Cations.Ab initio quantum chemical calculations at the SCF level using a split valence plus polarization basis set have been performed on molecules containing Ti, Si, O, and H, which represent substructures of titanozeolites and ETS Their purely siliceous analogues are also studied.
Among them is octahydrooctasilasesquioxane. The calculations show that titanium prefers a 4 .ZSM-5, Zeolite Socony Mobil–5 (framework type MFI from ZSM-5 (five)), is an aluminosilicate zeolite belonging to the pentasil family of zeolites.
Its chemical formula is Na n Al n Si 96–n O 16H 2 O (0reactions.