Add to ORKGWe present a simple analytical model that describes ion transport in a planar junction between an electrolyte and a conducting polymer film. When ions are injected in the film, holes recede, leading to partial dedoping of the film. This is modeled by two resistors in series, an ionic one for the dedoped part and an electronic one for the still-doped part. We show that analytical predictions can be made for the temporal evolution of the drift length of ions and the current, variables that could be assessed experimentally. A numerical model based on forward time iteration of drift/diffusion equations is used to validate these predictions. Using realistic materials parameters, we find that the analytical model can be used to obtain the ion dri...
A resistor- and pore-network methodology is used to examine transport of ions in various ion-conduct...
Solid polymeric electrolytes have the potential to greatly improve battery efficiency and stability,...
This review article provides a deep insight into the ion conduction mechanism in polymer electrolyte...
Many organic electronic and bioelectronics devices rely on mixed (electronic and ionic) transport wi...
Using planar junctions between the conducting polymer PEDOT:PSS and various electrolytes, it is poss...
We monitor the process of dedoping in a planar junction between an electrolyte and a conducting poly...
Thesis (Ph.D.)--University of Washington, 2019Materials with the ability to conduct both ionic and e...
Many organic electronic and bioelectronics devices rely on mixed (electronic and ionic) transport wi...
Understanding ion transport in conjugated polymers is essential for developing mathematical models o...
Understanding ion transport in conjugated polymers is essential for developing mathematical models o...
Understanding ion transport in conjugated polymers is essential for developing mathematical models o...
We monitor the process of dedoping in a planar junction between an electrolyte and a conducting poly...
<p>We apply mathematical methods to model diffusion and migration of ions, electrons, and holes in e...
Thesis: S.B., Massachusetts Institute of Technology, Department of Chemistry, 2019Cataloged from PDF...
We suppose and develop a simple quantitative model of polymer film conductivity. This model can be s...
A resistor- and pore-network methodology is used to examine transport of ions in various ion-conduct...
Solid polymeric electrolytes have the potential to greatly improve battery efficiency and stability,...
This review article provides a deep insight into the ion conduction mechanism in polymer electrolyte...
Many organic electronic and bioelectronics devices rely on mixed (electronic and ionic) transport wi...
Using planar junctions between the conducting polymer PEDOT:PSS and various electrolytes, it is poss...
We monitor the process of dedoping in a planar junction between an electrolyte and a conducting poly...
Thesis (Ph.D.)--University of Washington, 2019Materials with the ability to conduct both ionic and e...
Many organic electronic and bioelectronics devices rely on mixed (electronic and ionic) transport wi...
Understanding ion transport in conjugated polymers is essential for developing mathematical models o...
Understanding ion transport in conjugated polymers is essential for developing mathematical models o...
Understanding ion transport in conjugated polymers is essential for developing mathematical models o...
We monitor the process of dedoping in a planar junction between an electrolyte and a conducting poly...
<p>We apply mathematical methods to model diffusion and migration of ions, electrons, and holes in e...
Thesis: S.B., Massachusetts Institute of Technology, Department of Chemistry, 2019Cataloged from PDF...
We suppose and develop a simple quantitative model of polymer film conductivity. This model can be s...
A resistor- and pore-network methodology is used to examine transport of ions in various ion-conduct...
Solid polymeric electrolytes have the potential to greatly improve battery efficiency and stability,...
This review article provides a deep insight into the ion conduction mechanism in polymer electrolyte...