PRISM/PCCM SEMINAR: Interactions, Microstructure, Elasticity, and Aging of Colloidal Gels

Sep 22, 2021, 12:00 pm12:00 pm
Bowen Hall Auditorium Room 222



Event Description

Please join us Wednesday, Sept. 22, 2021, at 12:00 noon in the Bowen Hall Auditorium for the next seminar of the PRISM/PCCM Fall ’21 Seminar Series featuring Prof. Eric Furst of the University of Delaware. A light lunch is provided at 11:30 a.m. in the Bowen Hall Atrium immediately prior to the seminar.

Registration is requiredYou can register using this form here(link is external).

  • All attendees must wear face coverings.
  • Attendees at this event must be fully vaccinated against COVID-19.
  • Ability to social distance may not be possible.

Abstract: In colloidal gels, attractive interactions among suspended colloids drive a thermodynamic instability that promotes aggregation. Instead of phase separating, aggregates arrest in a space-spanning network. In many cases, aggregation is induced by the addition of non-adsorbing polymer to a suspension of repulsive colloids --- the depletion attraction. In other instances, gels form when particles are destabilized by screened electrostatic interactions. As a result, colloidal gels are found in a wide number of industrial processes and products where fine solids form dispersions, including agrochemicals, consumer care products, cement suspensions, in mineral processing, and pharmaceuticals. 

Gel rheology is a principal material property of interest, including elasticity and yielding. While studies have sought to understand the formation and properties of gels in a framework of arrested phase separation, their microstructure and rheology depend strongly on the nature of the particle interactions. At low volume fractions and strong interaction energies between particles, colloidal gels are effectively modeled as fractal flocs formed through diffusion-controlled kinetic processes. Flocs are the main load bearing units of the gel and theories connecting the floc architecture to the gel modulus remain a state-of-the-art description. Until recently, there was no definitive micro-structural theory for the elasticity of colloidal gels formed at higher volume fractions and lower strengths of interaction. What are the fundamental structural units imparting elasticity to the network, and what physical principles govern their formation? 

In this talk, I will present experiments form weak and strong gels that illustrate the role particle interactions have on gel structure and rheology. The nature of particle contacts or "bonds" plays a critical part in the microstructure, elasticity, and aging of colloidal gels, and points to ways of tailoring the surface chemistry of particles to control gel rheology and stability.

Bio: Eric M. Furst serves as Professor and Department Chair of Chemical and Biomolecular Engineering at the University of Delaware. Furst received his BS with University Honors in Chemical Engineering from Carnegie Mellon University and his PhD from Stanford University. Prior to joining the faculty at Delaware, he studied biophysics at Institut Curie, Paris. His research interests span a range of topics in soft matter science and engineering, focusing in particular on colloid science and rheology. He recently co-authored the book Microrheology for Oxford University Press. Furst is the recipient of the 2013 Soft Matter Lectureship Award, the NASA Exceptional Scientific Achievement Medal, the University Excellence in Undergraduate Advising and Mentoring Award, and is a Fellow of the American Chemical Society and the AAAS.

All seminars are held on Wednesdays from 12:00 noon-1:00 p.m. in the Bowen Hall Auditorium Room 222. A light lunch is provided at 11:30 a.m. in the Bowen Hall Atrium immediately prior to the seminar.

  • Princeton Center for Complex Materials (PCCM)
  • Princeton Institute for the Science & Tech of Materials (PRISM)