Modelling and Simulation in the Science of Micro- And Meso-Porous Materials
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Modelling and Simulation in the Science of Micro- and Meso-Porous Materials addresses significant developments in the field of micro- and meso-porous science.
The book includes sections on Structure Modeling and Prediction, Synthesis, Nucleation and Growth, Sorption and Separation processes, Reactivity and Catalysis, and Fundamental Developments in Methodology to give a complete overview of the techniques currently utilized in this rapidly advancing field.
It thoroughly addresses the major challenges in the field of microporous materials, including the crystallization mechanism of porous…mehr

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Produktbeschreibung
Modelling and Simulation in the Science of Micro- and Meso-Porous Materials addresses significant developments in the field of micro- and meso-porous science.

The book includes sections on Structure Modeling and Prediction, Synthesis, Nucleation and Growth, Sorption and Separation processes, Reactivity and Catalysis, and Fundamental Developments in Methodology to give a complete overview of the techniques currently utilized in this rapidly advancing field.

It thoroughly addresses the major challenges in the field of microporous materials, including the crystallization mechanism of porous materials and rational synthesis of porous materials with controllable porous structures and compositions. New applications in emerging areas are also covered, including biomass conversion, C1 chemistry, and CO2 capture.
Autorenporträt
C. Richard A. Catlow is currently professor of Chemistry at University College London and Cardiff University. He has written more than 1000 research articles in his field.

Veronique Van Speybroeck is full professor at the Ghent University and head of the Center for Molecular Modeling. She built up a large expertise in first principle kinetics in nanoporous materials in the frame of an ERC starting grant, awarded in 2009. Her current research focusses on first principle molecular dynamics simulations of complex chemical transformations in nanoporous materials, for which she received an ERC Consolidator grant in 2015.