Microgel Suspensions (eBook)

Fundamentals and Applications
eBook Download: PDF
2010 | 1. Auflage
XXII, 462 Seiten
Wiley-VCH (Verlag)
978-3-527-63300-5 (ISBN)

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Providing a vital link between chemistry and physics on the nanoscale, this book offers concise coverage of the entire topic in five major sections, beginning with synthesis of microgel particles and continuing with their physical properties. The phase behavior and dynamics of resulting microgel suspensions feature in the third section, followed by their mechanical properties. It concludes with detailed accounts of numerous industrial, commercial and medical applications.
Edited by David Weitz, Professor at Harvard and one of the world's pre-eminent experts in the field.

Alberto Fernandez-Nieves is Assistant Professor of Physics at the Georgia Institute of Technology. He received his B.S. and Ph.D. in Physics from the University of Granada (Spain) and came to the US to work with David Weitz as a Post-Doctoral Researcher in 2001. Before joining GeorgiaTech, he was Lecturer in the Department of Applied Physics at the University of Almeria (Spain). His research is in Soft Condensed Matter Physics with a focus on the connection between microscopic order and macroscopic properties. Hans M. Wyss is assistant professor in Mechanical Engineering and the Institute of Complex Molecular Systems at Eindhoven University of Technology in Eindhoven, the Netherlands. He received his MSc in Physics and his PhD in Materials Science from ETH Zurich (Switzerland). He worked as a postdoctoral researcher in David Weitz's research group at Harvard University, 2003-2008. His research interests are focused on the structure, dynamics, and rheology of soft materials. Dr. Johan Mattsson is a Lecturer in physics at the University of Leeds, U.K.. He received his MSc in Eng. Physics from Lund University, Sweden, and his PhD in Materials Science from Chalmers University of Technology, Sweden. He did postdoctoral work with Prof. David Weitz at Harvard University and has held a position as Assistant Professor of physics at Chalmers. His research is directed towards the physics of disordered materials and soft matter. David Weitz is the Mallinckrodt Professor of Physics and of Applied Physics at Harvard University. He received his B.S. in Physics from the University of Waterloo, and A.M. and Ph.D. in Physics from Harvard University. His research group studies the physics of soft condensed matter. Before coming to Harvard, David Weitz was a Professor of Physics at the University of Pennsylvania and a Physicist with Exxon Research and Engineering Co.

I. SYNTHESIS
Synthesis of Microgel Particles - Linking Chemistry and Physics
Polymerization Kinetics of Microgel Particles
Functional Microgel Particles
II. PHYSICAL PROPERTIES OF MICROGEL PARTICLES
Swelling Thermodynamics
Internal Structure of Microgel Particles
III. PHASE BEHAVIOR AND DYNAMICS
Statistical Mechanics of Soft Particles
Packing Soft Objects
Crystallization of Microgel Particles
Weakly Attractive Microgel-based Colloidal Gels
Microgel Suspensions as Model Glass Formers - The Role of Softness
Use of Microgel Particles as Models to Study Crystallization and Melting
IV. MECHANICAL PROPERTIES
Flow, Slip and Rheology of Microgel Suspensions
Local and Macroscopic Mechanics of Hydrogel Suspensions
Rheology of Industrially Relevant Microgels
V. APPLICATIONS
Microgels for Lenses, Photonic Crystals and Sensors
Microgels for Drug Delivery
Microgels for Oil Recovery
Microgels for Cosmetics
The role of Microgels in Toothpaste Preface
SYNTHESIS
Synthesis of Microgel Particles - Linking Chemistry and Physics
Polymerization Kinetics of Microgel Particles
Functional Microgel Particles
PHYSICAL PROPERTIES OF MICROGEL PARTICLES
Swelling Thermodynamics
Internal Structure of Microgel Particles
PHASE BEHAVIOR AND DYNAMICS
Statistical Mechanics of Soft Particles
Packing Soft Objects
Crystallization of Microgel Particles
Weakly Attractive Microgel-based Colloidal Gels
Microgel Suspensions as Model Glass Formers - The Role of Softness
Use of Microgel Particles as Models to Study Crystallization and Melting
MECHANICAL PROPERTIES
Flow, Slip and Rheology of Microgel Suspensions
Local and Macroscopic Mechanics of Hydrogel Suspensions
Rheology of Industrially Relevant Microgels
APPLICATIONS
Microgels for Lenses, Photonic Crystals and Sensors
Microgels for Drug Delivery
Microgels for Oil Recovery
Microgels for Cosmetics
The Role of Microgels in Toothpaste

Erscheint lt. Verlag 1.12.2010
Sprache englisch
Themenwelt Naturwissenschaften Chemie Organische Chemie
Technik
Schlagworte Biomaterialien • biomaterials • biomedical engineering • Biomedizintechnik • Chemie • Chemistry • Condensed Matter • Kondensierte Materie • Nanomaterialien • nanomaterials • Nanotechnologie • nanotechnology • Physical Organic Chemistry • Physics • Physik • Physikalische Organische Chemie • supramolecular chemistry • Supramolekulare Chemie • Suspension (Chemie)
ISBN-10 3-527-63300-6 / 3527633006
ISBN-13 978-3-527-63300-5 / 9783527633005
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