It Takes a Village to Create Solid Electrolytes: Page 2 of 2

Universities and research labs around the world are working together to create better solid electrolytes to bring us beyond the current lithium ion battery technology.
University Pennsylvania, polymer, solid electrolyte, lithium battery

The new structure developed in this research self-assembles into hairpin shapes, resulting in acid-lined channels that allow for the efficient transport of lithium ions across the polymer electrolyte. (Image source: University of Pennsylvania)


Because the polymer Nafion has a structure that is random and disordered, it is difficult to study. It contains side chains that occur randomly and that end in sulfonic acid groups. The sulfonic acid draws in water. This process forms channels through the polymer that allow cations to flow through the material. But the pathways for these positive ions are a convoluted maze. If the path could be made more direct, the transport of lithium ions through the polymer electrolyte could be quicker and more efficient.


That’s where the collaboration came in. The University of Pennsylvania group, under Winey, worked with a group at the University of Florida, under Kenneth Wagener. They have developed a new structure that places sulfonic acid groups at an even spacing along the polymer chain. Their approach results in many parallel acid-lined channels through the polymer, which act like a superhighway for lithium ion flow. The structure was determined from another collaboration—this time with Mark Stevens of Sandia National Laboratories.

The chains in the resulting structure form a series of hairpin shapes with a sulfonic acid group at each turn. This allows the polymer to assemble into orderly layers and results in straight channels, rather than the meandering maze structure of the unmodified Nafion. Cationic transport through the modified material is much faster. “We’re already faster than Nafion by a factor of two, but we could be even faster if we aligned all of those layers straight across the electrolyte membrane,” said Winey in the press release.

Build Us a Village

The goal is a solid electrolyte that will be safer than the flammable electrolytes that are presently used. At the same time, lithium metal batteries with solid polymer electrolytes might be both lighter and thinner. Such batteries would also have twice the capacity and the ability to recharge faster than today’s commercial lithium ion batteries.

Beyond the collaboration with the University of Florida and Sandia, additional contributions from researchers at the French National Center for Scientific Research, the French Alternative Energies and Atomic Energy Commission, and the Université Grenoble Alpes were noted in the University of Pennsylvania’s press release. The extent of this worldwide collaboration is an indication of how the search for improved battery materials and performance has become global in its scale.

Additional information on electrolytes, including a presentation by SolidEnergy Systems about its semi-solid electrolyte battery will be available at The Battery Show in Novi Michigan on September 11-13.

Senior Editor Kevin Clemens has been writing about energy, automotive, and transportation topics for more than 30 years. He has masters degrees in Materials Engineering and Environmental Education and a doctorate degree in Mechanical Engineering, specializing in aerodynamics. He has set several world land speed records on electric motorcycles that he built in his workshop.

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Join our in-depth conference program with over 100 technical discussions covering topics from new battery technologies and chemistries to BMS and thermal management. 
The Battery Show. Sept. 11-13, 2018, in Novi, MI. Register for the event, hosted by Design News’ parent company UBM.

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