Dynamic Light Scattering: With Applications to Chemistry, Biology, and Physics - Hardcover

About the Author

Redouane Borsali is Director of Research at the LCPO, a Polymer Research CNRS Laboratory, associated with the University of Bordeaux, France. He studied Physics at the University of Tlemcen, Algeria and received his Masters and Ph.D. in Polymer Physics at the Institute Charles Sadron (Louis Pasteur University, Strasbourg, France) in 1988. After his postdoctoral research position at the Max-Planck-Institute for Polymer Research (MPI-P) at Mainz, Germany in 1990 he joined the CNRS (Grenoble, France). In 1995, he spent a sabbatical leave at Stanford University and at IBM Almaden Research Center, CA, USA as a visiting scientist. He joined the LCPO in 2000 as the Polymer Physical-Chemistry Group Leader. His main research activities are focused on the study of the Structure, Dynamics and Self-assemblies of "Soft Matter" and particularly on Controlled Architecture Polymers such as block copolymers, polymer mixtures, polyelectrolytes, micelles, vesicles and rod-like particles. He is the author or co-author of over 110 research articles and two books.

Robert Pecora is Professor of Chemistry at Stanford University, USA. He received his A.B., A.M. and Ph.D. degrees from Columbia University, USA. After postdoctoral work at the Universite Libre de Bruxelles, Belgium and Columbia University he joined the Stanford University faculty in 1964. His research interests are in the areas of condensed phase dynamics of small molecules, macromolecules and colloids of both materials and biological interest. He is one of the major developers of the dynamic light scattering technique and has used many of the other techniques described in these volumes. His research emphasis is now on liquids near the glasstransition, rigid rod polymers, polyelectrolytes and composite liquids. He is the author or co-author of over 130 research articles and five books.

Redouane Borsali is Director of Research at the LCPO, a Polymer Research CNRS Laboratory, associated with the University of Bordeaux, France. He studied Physics at the University of Tlemcen, Algeria and received his Masters and Ph.D. in Polymer Physics at the Institute Charles Sadron (Louis Pasteur University, Strasbourg, France) in 1988. After his postdoctoral research position at the Max-Planck-Institute for Polymer Research (MPI-P) at Mainz, Germany in 1990 he joined the CNRS (Grenoble, France). In 1995, he spent a sabbatical leave at Stanford University and at IBM Almaden Research Center, CA, USA as a visiting scientist. He joined the LCPO in 2000 as the Polymer Physical-Chemistry Group Leader. His main research activities are focused on the study of the Structure, Dynamics and Self-assemblies of "Soft Matter" and particularly on Controlled Architecture Polymers such as block copolymers, polymer mixtures, polyelectrolytes, micelles, vesicles and rod-like particles. He is the author or co-author of over 110 research articles and two books.

Robert Pecora is Professor of Chemistry at Stanford University, USA. He received his A.B., A.M. and Ph.D. degrees from Columbia University, USA. After postdoctoral work at the Universite Libre de Bruxelles, Belgium and Columbia University he joined the Stanford University faculty in 1964. His research interests are in the areas of condensed phase dynamics of small molecules, macromolecules and colloids of both materials and biological interest. He is one of the major developers of the dynamic light scattering technique and has used many of the other techniques described in these volumes. His research emphasis is now on liquids near the glasstransition, rigid rod polymers, polyelectrolytes and composite liquids. He is the author or co-author of over 130 research articles and five books.

Synopsis

An introduction to the principles governing the application of light scattering to the study of problems in chemistry, biology, and physics. Stresses the use of light scattering to study the time dependence of thermal fluctuations in fluid systems, and introduces the theory of time-correlation functions. Topics include applications to the study of