NEI Corporation Announces Ready-to-Cast Solid Electrolyte Slurry for Lithium Ion Batteries

Share Article

New solid electrolyte slurry for lithium ion batteries (SSE-10D) can be readily cast into films & tapes and provides more options for cell designers to combine with suitable cathode and anode active materials. SSE-10D also allows limited atmospheric stability to the solid electrolyte particles, which otherwise need to be handled in a controlled environment.

Lithium Tin Phosphorous Sulfide (LSPS) Dispersion

LSPS Solid Electrolyte Dispersion for Lithium ion Batteries

By making solid state electrolyte materials available in a ready-to-cast form, our intent is to make it easier for Li-ion battery researchers to develop the next generation of all-solid-state lithium ion batteries.

NEI Corporation, a leading developer and manufacturer of specialty cathode, anode, and electrolyte materials for Lithium-ion batteries, has announced the availability of a patent-pending, ready-to-cast solid electrolyte material. Over the past year, NEI has supplied multi-kilogram quantities of their newly developed solid electrolyte powder, NANOMYTE® SSE-10 (Li10SnP2S12 or LSPS). NANOMYTE® SSE-10, which has been used by a number of scientists and engineers for developing and prototyping “all solid” lithium ion batteries, is now available in the form of a slurry (dispersion), NANOMYTE® SSE-10D, which can be cast into flexible tapes. NANOMYTE® SSE-10D is composed of surface-modified LSPS particles dispersed in organic solvent, which can be removed after the tape or film is formed.

Lithium Tin Phosphorous Sulfide (LSPS) belongs to a family of “superionic” solids, which have demonstrated high conductivity for lithium ions at room temperature. Commercial lithium ion batteries usually contain an electrolyte that is dissolved in flammable solvents. The use of a solid electrolyte eliminates the flammability issue associated with currently used liquid electrolytes.

Sulfide compounds with high Li-ion conductivity are not commonly available, and as such, the development of solid state electrolyte–based lithium ion batteries has been plagued by the lack of widespread availability of these difficult-to-produce materials. Sulfur-based superionic solids with high Li-ion conductivity (10-3 S/cm) at room temperature (and more than an order of magnitude higher at 60 oC) were not commercially available until over a year ago when NEI first introduced LSPS in powder form. Since then, SSE-10 powder has been tested by industrial corporations (automotive, electronics, oil & gas) as well as academic and research institutes.

By offering the material in slurry form, SSE-10D can be readily cast into films & tapes and provides more options for cell designers to combine with suitable cathode and anode active materials. Additionally, the dispersion allows limited atmospheric stability to the solid electrolyte particles, which otherwise need to be handled in a controlled environment. NANOMYTE® SSE-10D is available in small as well as bulk quantities, and it can be supplied in customized formulations, with the addition of an active material (such as LCO, LFP, NCA, LMNO, graphite, and LTO). The generic NEI process is amenable to synthesizing variants of LSPS (e.g., compositional changes), as well as other oxide-based solid electrolyte materials

“The introduction of NANOMYTE® SSE-10 last year, and now SSE-10D, will provide new capabilities to lithium battery developers and manufacturers to enable practical solid state batteries,” said Dr. Ganesh Skandan, CEO of NEI Corporation. He added, “By making solid state electrolyte materials available in a ready-to-cast form, our intent is to make it easier for Li-ion battery researchers to develop the next generation of all-solid-state lithium ion batteries.”

NEI Corporation has been a long trusted source for customized cathode and anode materials used in lithium batteries. The company specializes in developing new compositions and particle morphologies, including nanoscale particle engineering. NEI also has an extensive battery research and characterization facility, which includes multi-channel cell testers.

Share article on socal media or email:

View article via:

Pdf Print

Contact Author

Krista Martin
@NEI_Corporation
Follow >
NEI Corporation
Like >
NEI Corporation

Follow us on
Visit website