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    Insights into Noncovalent Binding Obtained from Molecular Dynamics Simulations

    New search for: Baz, Jörg
    New search for: Gebhardt, Julia
    New search for: Kraus, Hamzeh
    New search for: Markthaler, Daniel
    New search for: Hansen, Niels

    The key to nanoscale control of physical, chemical, and biological processes lies in well‐founded models of noncovalent binding. Atomistic simulations probe the free‐energy surface underlying molecular assembly processes in solution. Two examples of noncovalent binding studied by molecular dynamics simulations are discussed, the dimerization of a water‐soluble perylene bisimide derivative in aqueous solution with a focus on the influence of solvent composition on the aggregation strength and the binding of 1‐butanol to α‐cyclodextrin at infinite dilution with the focus on the determination of method‐independent binding free energies.

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    Insights into Noncovalent Binding Obtained from Molecular Dynamics Simulations

    New search for: Baz, Jörg
    New search for: Gebhardt, Julia
    New search for: Kraus, Hamzeh
    New search for: Markthaler, Daniel
    New search for: Hansen, Niels

    The key to nanoscale control of physical, chemical, and biological processes lies in well‐founded models of noncovalent binding. Atomistic simulations probe the free‐energy surface underlying molecular assembly processes in solution. Two examples of noncovalent binding studied by molecular dynamics simulations are discussed, the dimerization of a water‐soluble perylene bisimide derivative in aqueous solution with a focus on the influence of solvent composition on the aggregation strength and the binding of 1‐butanol to α‐cyclodextrin at infinite dilution with the focus on the determination of method‐independent binding free energies.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Insights into Noncovalent Binding Obtained from Molecular Dynamics Simulations

    New search for: Baz, Jörg
    New search for: Gebhardt, Julia
    New search for: Kraus, Hamzeh
    New search for: Markthaler, Daniel
    New search for: Hansen, Niels

    The key to nanoscale control of physical, chemical, and biological processes lies in well‐founded models of noncovalent binding. Atomistic simulations probe the free‐energy surface underlying molecular assembly processes in solution. Two examples of noncovalent binding studied by molecular dynamics simulations are discussed, the dimerization of a water‐soluble perylene bisimide derivative in aqueous solution with a focus on the influence of solvent composition on the aggregation strength and the binding of 1‐butanol to α‐cyclodextrin at infinite dilution with the focus on the determination of method‐independent binding free energies.

    Access

    Check access
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    Order at Subito €

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    Document information
    Title:

    Insights into Noncovalent Binding Obtained from Molecular Dynamics Simulations

    Contributors:

    Baz, Jörg (author) / Gebhardt, Julia (author) / Kraus, Hamzeh (author) / Markthaler, Daniel (author) / Hansen, Niels (author)

    Published in:

    Chemie Ingenieur Technik ; 90 ; 1864-1875

    Publication date:

    2018-11-01

    Size:

    12 pages

    ISSN:

    0009-286X , 1522-2640

    DOI:

    https://doi.org/10.1002/cite.201800050

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Molecular dynamics simulations , Force field , Cyclodextrin , Free energy , Validation

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