iR Drop Effects in Self-Powered and Electrochromic Biosensors
Miguel Aller PelliteroAnton Guimerà‐BrunetRosa VillaF. Javier del Campo
Abstract
This article proposes the exploitation of ohmic drop in the development of novel electrochromic devices. Electrochromic materials enable the construction of more efficient self-powered biosensors incorporating the ability to display information without the involvement of silicon-based electronics. Numerical simulations are employed to describe the behavior of a model system based on the combination of a second-generation biosensor and a Prussian blue-based display. The results show that concentration profiles can be used to model color behavior in electrochromic devices, but more importantly, how iR drop is a critical variable to consider not only in the design, construction, and study of electrochromic devices but also in self-powered electrochemical sensors and power sources in general.
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