Description |
1 online resource : color illustrations |
Series |
Springer theses, 2190-5061 |
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Springer theses.
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Contents |
From the Contents: Introduction -- Methods -- Theory and Modeling -- Surfactant Adsorption and Aggregate Structure at Silica Nanoparticles -- Formation of Cylindrical Micelles in Tubular Nanopores |
Summary |
This thesis presents studies on the interaction of soft materials like surfactants and proteins with hard silica nanomaterials. Due to itsinterdisciplinary natureit combines concepts from the fields of physical chemistry, nanoscience and materials science, yielding to fundamental insights into the structure-directing forces operating at the nano-scale. It is shown that the morphology of surfactant micellar aggregates adsorbed at the surface of nanoparticles and inside tubular nanopores can be tuned on demand by the co-adsorption of a surface modifier. The interaction of globular proteins with silica nanoparticles is dominated by electrostatic interactions and can be controlled by pH and ionic strength, while the bridging of nanoparticles by adsorbed protein molecules leads to large-scale hybrid aggregates of protein with the nanoparticles. Concepts emerging from the role of electrostatic interactions in the hetero-aggregation of nanoparticles with protein molecules are used for the co-assembly of charged microbeads into linear clusters and chains of controllable length |
Analysis |
chemie |
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chemistry |
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fysische chemie |
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physical chemistry |
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biofysica |
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biophysics |
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nanotechnologie |
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nanotechnology |
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Chemistry (General) |
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Chemie (algemeen) |
Notes |
"Doctoral thesis accepted by Techcnical University of Berlin, Germany." |
Bibliography |
Includes bibliographical references |
Notes |
Online resource; title from PDF title page (Ebsco, viewed June 25, 2014) |
Subject |
Particles (Nuclear physics) -- Absorption and adsorption
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Aggregation (Chemistry)
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Particles (Nuclear physics) -- Structure
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SCIENCE -- Nuclear Physics.
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SCIENCE -- Physics -- Nuclear.
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Aggregation (Chemistry)
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Form |
Electronic book
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ISBN |
9783319077376 |
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3319077376 |
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3319077368 |
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9783319077369 |
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