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Entropies of Condensed Phases and Complex Systems
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Entropies of Condensed Phases and Complex Systems - nuovo libro

ISBN: 9783642157363

Predicting thermodynamic quantities for chemically realistic systems on the basis of atomistic calculations is still, even today, a nontrivial task. Nonetheless, accurate treatment of int… Altro …

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Entropies of Condensed Phases and Complex Systems : A First Principles Approach - Corentin Briat
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Entropies of Condensed Phases and Complex Systems : A First Principles Approach - nuovo libro

ISBN: 9783642157363

This thesis presents a compact and coherent introduction of basic theoretical features, which provides a foundation for the development of approaches for calculation of condensed phase en… Altro …

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Entropies of Condensed Phases and Complex Systems - Christian Spickermann
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Entropies of Condensed Phases and Complex Systems - nuovo libro

ISBN: 9783642157363

Entropies of Condensed Phases and Complex Systems - A First Principles Approach: ab 96.49 € eBooks > Fachthemen & Wissenschaft > Wissenschaften allgemein Springer-Verlag GmbH eBook als pd… Altro …

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Entropies of Condensed Phases and Complex Systems - Christian Spickermann
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Christian Spickermann:
Entropies of Condensed Phases and Complex Systems - nuovo libro

2011, ISBN: 9783642157363

A First Principles Approach, eBooks, eBook Download (PDF), 2011, [PU: Springer Berlin], Seiten: 225, Springer Berlin, 2011

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Entropies of Condensed Phases and Complex Systems - Christian Spickermann
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Christian Spickermann:
Entropies of Condensed Phases and Complex Systems - nuovo libro

2011, ISBN: 9783642157363

A First Principles Approach, eBooks, eBook Download (PDF), 2011, [PU: Springer Berlin], Springer Berlin, 2011

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Entropies of Condensed Phases and Complex Systems
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ISBN:

364215736X

Informazioni dettagliate del libro - Entropies of Condensed Phases and Complex Systems


EAN (ISBN-13): 9783642157363
ISBN (ISBN-10): 364215736X
Anno di pubblicazione: 2011
Editore: Springer Berlin
225 Pagine
Lingua: eng/Englisch

Libro nella banca dati dal 2011-07-14T12:21:54+02:00 (Zurich)
Pagina di dettaglio ultima modifica in 2024-01-19T10:49:59+01:00 (Zurich)
ISBN/EAN: 364215736X

ISBN - Stili di scrittura alternativi:
3-642-15736-X, 978-3-642-15736-3
Stili di scrittura alternativi e concetti di ricerca simili:
Autore del libro : spickermann, spick, corentin
Titolo del libro: springer, principles systems, system entropie, phases, complex systems

Dati dell'editore

Autore: Christian Spickermann
Titolo: Springer Theses; Entropies of Condensed Phases and Complex Systems - A First Principles Approach
Editore: Springer; Springer Berlin
225 Pagine
Anno di pubblicazione: 2011-01-18
Berlin; Heidelberg; DE
Lingua: Inglese
96,29 € (DE)
99,00 € (AT)
118,00 CHF (CH)
Available
XVI, 225 p.

EA; E107; eBook; Nonbooks, PBS / Chemie/Theoretische Chemie; Quanten- und theoretische Chemie; Verstehen; Entropy calculations; First principles methods; Liquid phase thermodynamics; Liquid vapor phase transition; Quantum Cluster Equilibrium model; Rigid-rotor-harmonic-oscillator approximation; Solvent effects; Supramolecular Chemistry; B; Theoretical Chemistry; Complex Systems; Thermodynamics; Mathematical Applications in Chemistry; Theoretical, Mathematical and Computational Physics; Chemistry and Materials Science; Kybernetik und Systemtheorie; Thermodynamik und Wärme; Mathematische Physik; BC

Predicting thermodynamic quantities for chemically realistic systems on the basis of atomistic calculations is still, even today, a nontrivial task. Nonetheless, accurate treatment of inter-particle interactions, in terms of quantum chemical first principles methods, is a prerequisite for many applications, because of the complexity of both reactants and solvents in modern molecular sciences. Currently, a straightforward calculation of thermodynamic properties from these methods is only possible for high-temperature and low- density systems. Although the enthalpy of a system can often be predicted to a good level of precision with this ideal gas approach, calculating the entropy contribution to the free energy is problematic, especially as the density of the system increases. This thesis contains a compact and coherent introduction of basic theoretical features. The foundations are then laid for the development of approaches suitable for calculation of condensed phase entropies on the basis of well-established quantum chemical methods. The main emphasis of this work is on realistic systems in solution, which is the most important environment for chemical synthesis. The presented results demonstrate how isolated molecular concepts typically employed in modern quantum chemistry can be extended for the accurate determination of thermodynamic properties by means of scale- transferring approaches.
Nominated by Wilhelm-Ostwald Institute of Physical and Theoretical Chemistry Leipzig, Germany, for a Springer Theses Prize Demonstrates how the systematic improvement of calculated thermodynamics is possible using highly accurate quantum chemical data and applying models and methods Increases our understanding of the nature of condensed phase thermodynamics Includes supplementary material: sn.pub/extras
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