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Engineering the Interface Between Polymer Materials and Microorganisms

Tuesday, April 13, 2021 at 1:30pm to 2:30pm

Virtual Event

By re-engineering materials using bioinspired or “greener” chemistries, we can reduce or potentially eliminate toxic solvents, which would benefit the design of medical devices, water purification membranes, wearable electronics, as well as countless additional devices. In this presentation, I will discuss a story from each of my lab’s two synergistic research thrusts. First, I will discuss the effect that the fundamental properties of polymer coatings (i.e., molecular architecture, stiffness, and thickness) have on the adhesion of bacteria under quiescent conditions. By decoupling the effects of molecular architecture, stiffness, and thickness from coating chemistry, we have unlocked specific structure-property relationships that can be tailored to control the initial stage of bacterial adhesion. By understanding how materials properties influence bacterial adhesion, we may be able to decrease the concentration of commercial antibiotics needed to combat microbial biofilms. As an example of our work on green chemistry, I will highlight our recent research into nanofibers that form using only water and salt. Polyelectrolyte complexes (PECs) form due to the electrostatic complexation between oppositely-charged polymers. We have demonstrated that by exploiting the salt-driven plasticization of PECs, we can enable the electrospinning of robust fibers using an aqueous solution containing a pair of strong polyelectrolytes and salt. Electrospun PEC fibers are chemically and mechanically stable over a wide range of pH values, ionic strength conditions, and many organic solvents. The overall goal of this talk is to illustrate our recent findings and how these results can guide the green engineering of multifunctional materials

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Event Type



College of Human Ecology, Human Ecology Fiber Science and Apparel Design, Fiber Science & Apparel Design

Contact E-Mail

Contact Name

Karen Steffy

Contact Phone



Prof. Jessica Schiffman

Speaker Affiliation

UMass Amherst

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