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Toney and international team develop method for observing ion movement in batteries

Professor Michael F Toney

Professor Michael F. Toney

An international team of researchers including Professor Michael Toney has developed a new technique for precisely tracking the movement of ions within batteries, a discovery that may have far-reaching impacts on how safe and efficient batteries are developed. They published their findings in in September.

鈥淭his work helps to validate some of the simulations that are used to model batteries,鈥 Toney said. 鈥淥ur work provides confidence in these models and their fidelity. This is the short term impact. In the longer term, this work will help to guide the development of better electrolytes for batteries and other technologies.鈥

In batteries, ions carry a current of energy from anodes to cathodes and back again through electrolytes. Understanding how exactly ions move within batteries can lead to greater degrees of control over those movements鈥攁nd help scientists create stronger, more efficient batteries for specific applications, including electric vehicles.

The researchers used the at the U.S. Department of Energy鈥攁s part of the , a DOE Energy Innovation Hub鈥攖o observe and record the movement of ions in a model battery in real time.

The techniques they developed included the use of X-rays to determine the velocity and concentration of ions within a battery, then compared those results to theoretical models to determine the ion transport number, a fraction of electric current carried by ions in an electrolyte.

Previously, scientists would analyze the current to determine the ion transport number, but how much of that current was attributable to ions and how much was due to other factors was unknown. This new technique allows for more precise measurements and understanding of how ions move, leading to new opportunities for precise battery design and development.

Toney鈥檚 contributions were developed during his time working at the prior to accepting a position here at 欧美口爆视频. He expects to continue work in this area with his group here.

鈥淲e learned a lot during this project,鈥 Toney said. 鈥淚 expect to apply these kinds of methods to a broad range of battery materials over the next few years. In addition, I鈥檇 like to apply these methodologies to bio- and other polymers to study transport of ions in these systems. I see that there is the prospect to make tremendous progress in the next decade in terms of understanding the microscopics of ion transport and, from this, designing better electrolytes.鈥

This work was supported as part of the Joint Center for Energy Storage Research, an Energy Innovation Hub funded by the U.S. Department of Energy, Office of Science, Basic Energy Sciences.