Surface and Colloid Science Volume 17
edited by Egon Matijevic
and Michal Borkovec
Taking a critical approach toward novel colloid systems and phenomena, this series provides both the historical development and a digest of recent advances.
Topics include:
- The preparation, properties, and applications of magnetic particles
- Colloidal aggregations in two-dimensions
- And much more!
Surface and Colloid Science Volume 17 presents advances in surface and colloid science, featuring articles from a number of international contributors.
Contents
- Magnetic Particles: Preparation, Properties and Applications
- Introduction
- Preparation
- Properties of Magnetic Particles
- Applications
- Maghemite (?-Fe2O3): A Versatile Magnetic Colloidal Material
- Introduction
- Synthesis
- Crystal Structure and Cation Ordering
- Colloidal Properties
- Magnetic Properties
- y-Fe2O3 Nanocomposites
- Dynamics of Adsorption and Oxidation of Organic Molecules on Illuminated Titanium Dioxide Particles Immersed in Water
- Introduction
- One-Electron Oxidations
- One-Electron Oxidations of Substrates that Form Two Different Surface Complexes
- Two-Electron Oxidations
- Oxidation of Mixtures of Two Organic Compounds
- Reactions Mediated by OH Radicals
- Electron Injection in the Conduction Band (Photo-Electrochemical Experiments)
- Potential Dependence of the Rate Constants in Photo-Electrochemical Experiments
- Photo-Oxidations in the Presence of Dissolved Oxidants (Dioxygen, etc.)
- Colloidal Aggregations in Two-Dimensions
- Introduction
- Theory and Simulation of Colloidal Aggregation in 2-D
- Experimental Study of Two-Dimensional Aggregation
- Colloidal Stability and Interactions at Colloidal Monolayers
- Global Analysis of the Two-Dimensional Aggregation
- Kinetics of Particle and Protein Adsorption
- Introduction
- Interactions—Driving Forces of Adsorption
- Linear Adsorption Regimes
- Non-Linear Adsorption Regimes
- Experimental Evidences
Index
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