This book plans to achieve a unification of views towards the goal of understanding the microscopic structure and behaviour of condensed phases of water at interfaces and progressing into the bulk.
This book plans to achieve a unification of views towards the goal of understanding the microscopic structure and behaviour of condensed phases of water at interfaces and progressing into the bulk.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Faraday Discussions documents a long-established series of Faraday Discussion meetings which provide a unique international forum for the exchange of views and newly acquired results in developing areas of physical chemistry, biophysical chemistry and chemical physics. The papers presented are published in the Faraday Discussion volume together with a record of the discussion contributions made at the meeting. Faraday Discussions therefore provide an important record of current international knowledge and views in the field concerned. The latest (2012) impact factor of Faraday Discussions is 3.82.
Inhaltsangabe
Ions at Aqueous Interfaces The Surface of Neat Water Is Basic Negative Charges at the Air/water Interface and Their Consequences for Aqueous Wetting Films Containing Surfactants Water-mediated Ordering of Nanoparticles in an Electric Field Ultrafast Phase Transitions in Metastable Water near Liquid Interfaces Hydration Dynamics of Purple Membranes From Shell to Cell: Neutron Scattering Studies of Biological Water Dynamics and Coupling to Activity Time Scales of Water Dynamics at Biological Interfaces: Peptides, Proteins and Cells Structure and Dynamics of Interfacial Water in Model Lung Surfactants The Terahertz Dance of Water with the Proteins: The Effect of Protein Flexibility on the Dynamical Hydration Shell of Ubiquitin Coarse-grained Modeling of the Interface Between Water and Heterogeneous Surfaces Water Growth on Metals and Oxides: Binding, Dissociation and Role of Hydroxyl Groups Order and Disorder in the Wetting Layer on Ru(0001) What Ice Can Teach Us about Water Interactions: A Critical Comparison of the Performance of Different Water Models On Thin Ice: Surface Order and Disorder During Pre-melting Reactivity of Water - Electron Complexes on Crystalline Ice Surfaces "Similarities" Between Confined and Supercooled Water Structural and Mechanical Properties of Glassy Water in Nanoscale Confinement Water Nanodroplets Confined in Zeolite Pores Dynamic Properties of Confined Hydration Layers Study of a Nanoscale Water Cluster by Atomic Force Microscopy Water at an Electrochemical Interface - A Simulation Study.
Ions at Aqueous Interfaces The Surface of Neat Water Is Basic Negative Charges at the Air/water Interface and Their Consequences for Aqueous Wetting Films Containing Surfactants Water-mediated Ordering of Nanoparticles in an Electric Field Ultrafast Phase Transitions in Metastable Water near Liquid Interfaces Hydration Dynamics of Purple Membranes From Shell to Cell: Neutron Scattering Studies of Biological Water Dynamics and Coupling to Activity Time Scales of Water Dynamics at Biological Interfaces: Peptides, Proteins and Cells Structure and Dynamics of Interfacial Water in Model Lung Surfactants The Terahertz Dance of Water with the Proteins: The Effect of Protein Flexibility on the Dynamical Hydration Shell of Ubiquitin Coarse-grained Modeling of the Interface Between Water and Heterogeneous Surfaces Water Growth on Metals and Oxides: Binding, Dissociation and Role of Hydroxyl Groups Order and Disorder in the Wetting Layer on Ru(0001) What Ice Can Teach Us about Water Interactions: A Critical Comparison of the Performance of Different Water Models On Thin Ice: Surface Order and Disorder During Pre-melting Reactivity of Water - Electron Complexes on Crystalline Ice Surfaces "Similarities" Between Confined and Supercooled Water Structural and Mechanical Properties of Glassy Water in Nanoscale Confinement Water Nanodroplets Confined in Zeolite Pores Dynamic Properties of Confined Hydration Layers Study of a Nanoscale Water Cluster by Atomic Force Microscopy Water at an Electrochemical Interface - A Simulation Study.
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