• Electrolyte
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Improved Impact-Resistant Electrolytes Disclosure Number 201603633 Technology Summary This invention concerns a battery electrolyte that includes a shear thickening fluid that stiffens upon impact to form a solid barrier that prevents a shorting event from occurring during an accident. This invention includes key improvements to the technology, making it more attractive for commercial i…

Fabrication of Films and Coatings Using Shear Thickening, Impact Resistant Electrolytes Fabrication of Films and Coatings Using Shear Thickening, Impact Resistant Electrolytes Disclosure Number 201603634 Technology Summary The present invention includes a method of fabricating of shear thickening electrolytes and coating materials. This method utilizes a unique blend of solvent selecti…

Electrolytes for High Energy Density Ultracapacitors Disclosure Number 201303214 Technology Summary The present invention comprises a new sodium based electrolyte system that has an electrochemical window of 4V, which is suitable for use as electrolytes for high energy density supercapacitors. This is contrast to the current state- of-the art electrolyte that are based on tetraethyl …

High-Conduction Ge Substituted Li3AsS4 Solid Electrolyte with Exceptionally Low Activation Energy High-Conduction Ge Substituted Li3AsS4 Solid Electrolyte with Exceptionally Low Activation Energy Disclosure Number 201403290 Technology Summary Lithium-ion conducting solid electrolytes show potential to enable high-energy-density secondary batteries and offer distinctive safety feat…

: Fact Cards
: Electrolyte, Warfighter, Energy...

Electrochemically Stabile Li7P2S8I Superionic Conductor Disclosure Number 201403349 Technology Summary A new LiPS phase has been developed. This new solid electrolyte exhibits the characteristics of a solid solution with fast ion conduction and electrochemical stability up to 10 V vs Li/Li+ while demonstrating low charge transfer resistance. These characteristics form a foundation wi…

: Fact Cards

Low Temperature Proton Conducting Oxide Disclosure Number 200501499 Technology Summary Supplemental to IDR #23. A novel electrolyte with high proton conduction at temperatures less than 550 C has been developed. Conduction via hydrogen ions (protons) has been proven by electrical conductivity and complementary hydrogen flux measurements. Stability in redu…

Method of Separating Elements Using Solid Electrolytes Disclosure Number 201503601 Technology Summary A method for separating two or more elements from each other is provided. The method includes the use of solid electrolyte materials to selectively conduct targeted species away from other non-conductive species. The separation method makes use of the selective nature of superionic cond…

Highly Soluble Alkoxy-based Magnesium Electrolytes for Rechargeable Magnesium Batteries Highly Soluble Alkoxy-based Magnesium Electrolytes for Rechargeable Magnesium Batteries Disclosure Number 201303105 Technology Summary Magnesium batteries are the most promising alternative technology to replace lithium ion batteries. In this report, air- stable and non-pyro…

: Fact Cards

High Voltage Window Electrolyte for Supercapacitors Disclosure Number 201603726 Technology Summary The invention is directed to high voltage electrolytes for supercapacitors. A supercapacitor and an electrolyte composition for use in a supercapacitor are described herein. The supercapacitor includes a negative carbon electrode having a current collector, a positive carbon electrode havi…

PFTT - Method to Increase Ion Sorption/Desorption Rates by Charged Conductive Materials PFTT - Method to Increase Ion Sorption/Desorption Rates by Charged Conductive Materials Disclosure Number 201002490 Technology Summary A new method for enhanced rates of charging/discharging conductive electrodes in electrolytes systems has been discovered. This method can be employed to remove ions f…

: Fact Cards
: Sorption, Ion, Electrolyte...
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