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Nanomaterial science has received increasing attention over the last twenty years. As more and more applications are discovered in medical sciences, physics, chemistry, polymer science, material science and engineering, there is a growing need for a basic understanding of nanoparticle interactions and their role in the thermodynamic and kinetic stability of nanodispersions. "Nanodispersions: Interactions, Stability and Dynamics" collects research in nanodispersion interactions and stability by the distinguished Eli Ruckenstein and his research group at SUNY-Buffalo. This book provides valuable insight into current investigations of nanotechnology.…mehr
Nanomaterial science has received increasing attention over the last twenty years. As more and more applications are discovered in medical sciences, physics, chemistry, polymer science, material science and engineering, there is a growing need for a basic understanding of nanoparticle interactions and their role in the thermodynamic and kinetic stability of nanodispersions.
"Nanodispersions: Interactions, Stability and Dynamics" collects research in nanodispersion interactions and stability by the distinguished Eli Ruckenstein and his research group at SUNY-Buffalo. This book provides valuable insight into current investigations of nanotechnology.
Eli Ruckenstein has won many notable awards, including the Founders Award from the American Institute of Chemical Engineers, the National Academy of Engineering Founders Award, and the National Medal of Science.
His interests include transport phenomena, catalysis, colloids and interfaces, phase transformations, thermodynamics, and materials.
Inhaltsangabe
Coagulation, dissociation and growth of aerosols.- Dynamics of deposition of Brownian particles or cells on surfaces.- Stability of dispersions.- Non-DLVO colloidal interactions: excluded volumes, undulation interactions, depletion forces and many-body effects.- Non-DLVO colloidal interactions: specific ion effects explained by ion-hydration forces.- Polarization Model: a unified framework for hydration and double layer interactions.- Polarization Model and ion specificity: applications.- Polymer brushes.
Coagulation, dissociation and growth of aerosols.- Dynamics of deposition of Brownian particles or cells on surfaces.- Stability of dispersions.- Non-DLVO colloidal interactions: excluded volumes, undulation interactions, depletion forces and many-body effects.- Non-DLVO colloidal interactions: specific ion effects explained by ion-hydration forces.- Polarization Model: a unified framework for hydration and double layer interactions.- Polarization Model and ion specificity: applications.- Polymer brushes.
Coagulation, dissociation and growth of aerosols.- Dynamics of deposition of Brownian particles or cells on surfaces.- Stability of dispersions.- Non-DLVO colloidal interactions: excluded volumes, undulation interactions, depletion forces and many-body effects.- Non-DLVO colloidal interactions: specific ion effects explained by ion-hydration forces.- Polarization Model: a unified framework for hydration and double layer interactions.- Polarization Model and ion specificity: applications.- Polymer brushes.
Coagulation, dissociation and growth of aerosols.- Dynamics of deposition of Brownian particles or cells on surfaces.- Stability of dispersions.- Non-DLVO colloidal interactions: excluded volumes, undulation interactions, depletion forces and many-body effects.- Non-DLVO colloidal interactions: specific ion effects explained by ion-hydration forces.- Polarization Model: a unified framework for hydration and double layer interactions.- Polarization Model and ion specificity: applications.- Polymer brushes.
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