Description

Book Synopsis
Chemical modelling covers a wide range of disciplines and this book is the first stop for any materials scientist, biochemist, chemist or molecular physicist wishing to acquaint themselves with major developments in the applications and theory of chemical modelling. Containing both comprehensive and critical reviews, it is a convenient reference to the current literature. Coverage includes, but is not limited to, boron clusters, molecular modeling of inclusion complexes, modelling of circular dichroism for DNA and proteins, and the interface effect of nanocomposites as electrode materials for Li/Na ion batteries.

Table of Contents
Modeling Nanoparticle Aggregation; Paths of Chemical Reactions and their Networks: From Geometry Optimization to Automated Search and Systematic Analysis; Charge Transport through Nanocontacts; Activation of Small Molecules by Transition-metal Complexes; Modeling Electronic Excitations/Formation of Trap States in Semiconducting Nanocrystals

Chemical Modelling: Volume 15

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£314.95

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Order before 4pm today for delivery by Fri 2 Jan 2026.

A Hardback by Michael Springborg, Jan-Ole Joswig

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    View other formats and editions of Chemical Modelling: Volume 15 by Michael Springborg

    Publisher: Royal Society of Chemistry
    Publication Date: 28/11/2019
    ISBN13: 9781788013697, 978-1788013697
    ISBN10: 1788013697
    Also in:
    Quantum and theoretical chemistry

    Description

    Book Synopsis
    Chemical modelling covers a wide range of disciplines and this book is the first stop for any materials scientist, biochemist, chemist or molecular physicist wishing to acquaint themselves with major developments in the applications and theory of chemical modelling. Containing both comprehensive and critical reviews, it is a convenient reference to the current literature. Coverage includes, but is not limited to, boron clusters, molecular modeling of inclusion complexes, modelling of circular dichroism for DNA and proteins, and the interface effect of nanocomposites as electrode materials for Li/Na ion batteries.

    Table of Contents
    Modeling Nanoparticle Aggregation; Paths of Chemical Reactions and their Networks: From Geometry Optimization to Automated Search and Systematic Analysis; Charge Transport through Nanocontacts; Activation of Small Molecules by Transition-metal Complexes; Modeling Electronic Excitations/Formation of Trap States in Semiconducting Nanocrystals

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