Viscous flow properties and hydrodynamic diameter of phenothiazine-based redox-active molecules in different supporting salt environments

@article{Wang2020ViscousFP,
  title={Viscous flow properties and hydrodynamic diameter of phenothiazine-based redox-active molecules in different supporting salt environments},
  author={Yilin Wang and A. Kaur and N. H. Attanayake and Zhou Yu and T. M. Suduwella and Lei Cheng and S. Odom and R. Ewoldt},
  journal={arXiv: Soft Condensed Matter},
  year={2020}
}
  • Yilin Wang, A. Kaur, +5 authors R. Ewoldt
  • Published 2020
  • Materials Science, Physics
  • arXiv: Soft Condensed Matter
We report viscous flow properties of a redox-active organic molecule, N-(2-(2-methoxyethoxy)ethyl)phenothiazine (MEEPT), a candidate for non-aqueous redox flow batteries, and two of its radical cation salts. A microfluidic viscometer enabled the use of small sample volumes in determining viscosity as a function of shear rate and concentration in the non-aqueous solvent, acetonitrile, both with and without supporting salts. All solutions tested show Newtonian behavior over shear rates of up to… Expand

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