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Creating High Yield Stress Particle-Laden Oil/Water Interfaces Using Charge Bidispersity.

Arsalan Abutalebi1, Gordon F Christopher1

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|September 26, 2024
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Summary
This summary is machine-generated.

Bidisperse particles create stronger Pickering emulsion stabilization than monodisperse ones. This interfacial engineering approach enhances viscoelasticity and yield stress, potentially reducing particle usage in commercial and biomedical applications.

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Area of Science:

  • Colloid and Interface Science
  • Materials Science
  • Rheology

Background:

  • Pickering emulsions are stabilized by particles at oil/water interfaces.
  • Current methods often require high particle concentrations for effective stabilization.
  • Interfacial viscoelasticity plays a role, but steric hindrance is typically dominant.

Purpose of the Study:

  • To investigate if bidisperse (two-sized) charged particles can create high interfacial viscoelastic yield stresses at low concentrations (<50%).
  • To evaluate the efficacy of bidisperse particle systems for Pickering emulsion stabilization.
  • To compare the performance of bidisperse systems against monodisperse systems and theoretical models.

Main Methods:

  • Interfacial rheology experiments were performed at oil/water interfaces.
  • Visualization experiments were conducted using charged latex spheres (amidine, carboxylate, sulfate-coated).
  • A model based on interparticle forces was developed and compared with experimental data.

Main Results:

  • Bidisperse particle systems formed more networked interfacial structures compared to monodisperse systems.
  • At <50% surface concentration, bidisperse interfaces exhibited viscoelastic moduli approximately one order of magnitude higher than monodisperse interfaces.
  • Bidisperse interfaces showed measurable yield stresses (∼10⁻⁴ Pa·m), while monodisperse systems did not.
  • The enhanced viscoelasticity was attributed to increased interparticle attraction, not microstructural changes.

Conclusions:

  • Bidisperse particle systems can generate significant interfacial viscoelastic moduli and yield stresses at low particle surface concentrations.
  • This approach offers a potential strategy for more efficient Pickering emulsion stabilization.
  • The findings suggest fewer particles may be needed in future applications, reducing cost and environmental impact.