Differential dynamic microscopy for the characterization of polymer systems

Roberto Cerbino (Corresponding author), Fabio Giavazzi, Matthew E. Helgeson

Publications: Contribution to journalReviewPeer Reviewed

Abstract

This review summarizes recent progress in investigating polymer systems by using Differential dynamic microscopy (DDM), a rapidly emerging approach that transforms a commercial microscope by combining real-space information with the powerful capabilities of conventional light scattering analysis. DDM analysis of a single microscope movie gives access to the sample dynamics in a wide range of scattering wave-vectors, enabling contemporary polymer science experiments that would be difficult or impossible with standard light scattering techniques. Examples of application include the characterization of polymer solutions and networks, of polymer based colloidal systems, of biopolymers, and of cellular motility in polymeric fluids. Further applications of DDM to a variety of polymer systems are suggested to be just behind the corner and it is thus likely that DDM will become a tool of choice of the modern experimental polymer scientists.
Original languageEnglish
Pages (from-to)1079-1089
Number of pages11
JournalJournal of Polymer Science
Volume60
Issue number7
Early online date3 Jun 2021
DOIs
Publication statusPublished - 1 Apr 2022

Austrian Fields of Science 2012

  • 103023 Polymer physics
  • 104019 Polymer sciences

Keywords

  • differential dynamic microscopy
  • dynamic light scattering
  • polymer dynamics
  • polymer relaxation
  • scattering

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