Particle Separation Techniques: Fundamentals, Instrumentation, and Selected Applications presents the latest research in the field of particle separation methods. This edited book authored by subject specialists is logically organized in sections, grouping the separation techniques according to their preparative or analytical purposes and the particle type. Along with the traditional and classical separation methods suitable for micronic particles, an update survey of techniques appropriate for nanoparticle characterization is presented. This book fills the gap in the literature of particle suspension analysis of a synthetic but comprehensive manual, helping the reader to identify and apply selected techniques.
It provides an overview of the techniques available to a reader who is not an expert on particle separation yet about to enter the field, design an experiment, or buy an instrument for his/her new lab.
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Table of Contents
Part 1: Introduction 1. Introduction The new, latest improvements in the particle separation techniques 2. What is a particle, classification and properties 3. Particle dispersions in liquid media 4. Particle characterization: parameters and selected methods
Part 2: Preparative separations 5. Membrane-based filtration technology 6. Sedimentation 7. Electrophoresis and dielectrophoresis 8. Magnetic Separations (MS) 9. Historical overview of flow cytometry and frontier applications 10. Affinity Chromatography 11. Affinity separation on fibers and surfaces Part 3: Analytical separations 12. Production, role and use of reference materials for nanoparticle characterization 13. Size exclusion chormatography (SEC) 14. Passive and active microfluidic separation methods 15. Inertial microfluidic techniques 16. Analytical ultracentrifugation 17. Centrifugal liquid sedimentation methods 18. Theoretical principles of field-flow fractionation and SPLITT 19. Field flow fractionation (FFF): practical and experimental aspects 20. Capillar electromigration techniques
Part 4: Present Challenges 21. Regulatory and technical challenges in the size characterization of nanoparticulate systems