Solid Polymer Lithium-ion Batteries

ID U-6104

Category Energy

Subcategory Energy Storage

Researchers
Jin LiuYue LinXuming Wang Jan Miller
Brief Summary

Nanocomposite solid polymer electrolytes to improve lithium-ion battery performance and safety.

Problem Statement

Conventional lithium-ion batteries provide satisfactory performance, but using liquid electrolyte creates the potential for solvent leakage and flammability hazard which has created safety and reliability concerns. Use of a solid polymer electrolyte would improve safety, but solid electrolytes often do not meet performance requirements due to low ionic conductivity at lower temperature.

Technology Description

These new lithium-ion batteries utilize high performance nanocomposite solid polymer electrolytes (SPE) to improve safety and reliability. This new solid polymer electrolyte integrates low cost nanocomposite additives to allow high ionic conductivity at low temperatures, increased stability, and is pliable and moldable. Very positive test results have been obtained with the new SPE for use in lithium-sulfur, lithium-silicon, and lithium-iron phosphate batteries. The new batteries can be used for energy storage, electric vehicles, portable electronics devices, sensors, and other applications.

Stage of Development

Prototype

Benefit

  • Improves overall battery performance and cycling performance.
  • Increases safety and stability.
  • Exhibits high ionic conductivity at low temperatures.
  • Utilizes a natural, economical, and non-toxic nanotube material.
  • Simple technological process.
  • Nanotube additive is much less cost than carbon nanotubes or silicon nanoparticles.

Publications

Lin, Y., Wang, X., Liu, J., Miller, J.D. (2017). Natural halloysite nano-clay electrolyte for advanced all-solid-state lithium-sulfur batteries. Nano Energy, 31:478–485. doi: 10.1016/j.nanoen.2016.11.045

Contact Info

Dean Gallagher
(801) 585-0396
dean.gallagher@utah.edu

Questions?

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