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Home » Best of Both Worlds with a Glass-Polymer Hybrid
CI Advanced FeaturesTopicsGlass
Glass Innovation

Best of Both Worlds with a Glass-Polymer Hybrid

A newly developed glass-polymer hybrid electrolyte addresses challenges in solid-state lithium batteries.

glass-polymer hybrid electrolyte
February 1, 2016
KEYWORDS batteries / composites / glass in automotive / glass in energy
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Scientists at the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) have developed a novel electrolyte for use in solid-state lithium batteries that overcomes many of the problems that plague other solid electrolytes while also showing signs of being compatible with next-generation cathodes. Berkeley Lab battery scientist Nitash Balsara, working with collaborator Joseph DeSimone of the University of North Carolina at Chapel Hill, came up with a highly conductive hybrid electrolyte, combining the two primary types of solid electrolytes—polymer and glass.

Their discovery is detailed in “Compliant Glass-Polymer Hybrid Single-Ion-Conducting Electrolytes for Lithium Batteries,” published online in the journal Proceedings of the National Academy of Sciences (PNAS); co-authors include Berkeley Lab researchers Irune Villaluenga, Kevin Wujcik, Wei Tong, and Didier Devaux, and Dominica Wong of U. North Carolina. Villaluenga, a postdoctoral fellow at Berkeley Lab, played a key role in designing and realizing the solid electrolyte; Balsara and DeSimone are the senior authors.

“The electrolyte is compliant, which means it can readily deform to maintain contact with the electrode as the battery is cycled, and also has unprecedented room temperature conductivity for a solid electrolyte,” says Balsara.

The electrolyte carries electrical charge between the battery’s cathode and anode and, in most commercial batteries, is liquid. Researchers are striving to develop a battery with all solid components, as it would likely perform better, last longer and be safer.

 

Multiple Benefits

The two kinds of solid electrolytes—polymer and glass or ceramic—each come with their own set of issues. Polymer electrolytes don’t conduct well at room temperature and need to be heated up. Ceramic electrolytes, on the other hand, do conduct well at room temperature but require a great deal of pressure to maintain contact with the electrodes. “It needs something like 1 ton over every square centimeter, so you need a big truck sitting on the battery as it cycles,” Balsara says.

The new material, a glass-polymer hybrid, was made by taking particles of glass, attaching perfluoropolyether chains to the surface of the particles, adding salt, and then making a film out of these components. By tuning the polymer-to-glass ratio, the researchers were able to come up with a compliant electrolyte with high conductivity at room temperature and excellent electrochemical stability.

Although the conductivity is not as good as that of a liquid electrolyte, being about 10 to 15 times lower, “it’s probably good enough for some applications,” Balsara says. “We don’t necessarily need to match a liquid electrolyte because nearly all of the current in the hybrid electrolyte is carried by the lithium ion. In conventional lithium electrolytes, only 20-30% of the current is carried by the lithium ion. Nevertheless, it is likely that playing around with different glass compounds, particle size, and length and concentration of the polymer chains will result in improved conductivity.”

The researchers also demonstrated that their hybrid electrolyte should be stable with two of the most promising next-generation cathode candidates that are being developed, sulfur and high-voltage cathodes such as lithium nickel manganese cobalt oxide. “People would like to use 5-volt cathodes, but electrolytes that are stable against those 5-volt cathodes are not readily available,” Balsara explains. “We have demonstrated this electrolyte is stable at 5 volts, though we have not incorporated the hybrid electrolyte in the cathode yet.”

 

Sulfur Cathode Compatibility

Further experiments demonstrated that the hybrid electrolyte can be well-suited to work with a sulfur cathode, which operates at a relatively low voltage but has the advantages of being high capacity and inexpensive. A major failure mode in lithium-sulfur cells with conventional liquid electrolytes is the dissolution of intermediate compounds formed as sulfur in the cathode is converted to lithium sulfide into the electrolyte. However, the intermediates were found to be insoluble in the glass-polymer electrolyte.

“Although much work remains to be done, we believe that our work opens a previously unidentified route for developing hybrid solid electrolytes that will address the current challenges of lithium batteries,” the researchers wrote in the PNAS article.

Funding for the research at Berkeley Lab was provided by the DOE’s Office of Science through the Joint Center for Energy Storage Research, a DOE Energy Innovation Hub. Part of the work was done at the Stanford Synchrotron Radiation Lightsource at SLAC National Accelerator Laboratory and at the Advanced Light Source at Berkeley Lab, both DOE Office of Science User Facilities. Balsara was one of the co-founders of battery startup Seeo, founded in 2007 to develop a solid block copolymer electrolyte. Balsara and DeSimone have also co-founded a startup company called Blue Current, which aims to commercialize a perfluoropolyether-based nonflammable electrolyte they developed together.  


For more information, visit www.lbl.gov.

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