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Electrical transport in semiconducting and metallic particle suspensions is an enabling feature of emerging grid-scale battery technologies. Although the physics of the transport process plays a key role in these technologies, no universal framework has yet emerged. Here, we examine the important contribution of shear flow to the electrical transport of non-Brownian suspensions. We find that these suspensions exhibit a strong dependence of the transport rate on the particle volume fraction and applied shear rate, which enables the conductivity to be dynamically changed by over 10 7 decades based on the applied shear rate. We combine experiments and simulations to conclude that the transport process relies on a combination of charge and particle diffusion with a rate that can be predicted using a quantitative physical model that incorporates the self-diffusion of the particles.
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Swan, James W.; Winslow, Samuel W.; Tisdale, William A. (, AIChE Journal)null (Ed.)
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Cheng, Li-Chiun; Sherman, Zachary M.; Swan, James W.; Doyle, Patrick S. (, Langmuir)
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Bahadur, Divya; Zhang, Qingteng; Dufresne, Eric M.; Grybos, Pawel; Kmon, Piotr; Leheny, Robert L.; Maj, Piotr; Narayanan, Suresh; Szczygiel, Robert; Swan, James W.; et al (, The Journal of Chemical Physics)
