Program:
IONICS
Award:
$6,761,565
Location:
Woburn, Massachusetts
Status:
ALUMNI
Project Term:
01/16/2017 - 08/31/2021

Technology Description:

Ionic Materials will develop a lithium metal (not lithium ion) rechargeable battery cell that employs a novel solid polymer electrolyte that enables the world’s first truly safe lithium metal rechargeable battery cell. Scientists at the City University of New York have found that Ionic Material’s proprietary ionic conducting polymer is the most highly lithium conducting solid state polymer material ever measured (at room temperature). This polymer has high ionic conductivity across a range of temperatures, can be reliably extruded into very thin films, is non-flammable, has attractive mechanical properties, and is compatible with a variety of different anodes and cathodes, including lithium metal. This polymer also has the potential to address a number of challenges associated with lithium metal anodes, including electrochemical stability and the ability to cycle without the growth of branchlike metal fibers called dendrites. If left unimpeded, dendrites can grow to span the space between the negative and positive electrodes, causing short-circuiting. Ionic Materials' polymer electrolyte will eliminate the risk of battery shorting due to dendrites, and speed the safe implementation of solid-state, lithium metal anode batteries. Such cells are of particular interest due to their extremely high specific energy (400 Wh/kg or more versus 285 Wh/kg for the best Li-Ion cells today) and their potential to reduce cell costs below $100/kWh, a commonly cited tipping point for the mass adoption of electric vehicles.

Potential Impact:

If successful, developments made under the IONICS program will increase the energy storage content for vehicle batteries by about 30% compared to today's Li-ion batteries and significantly reduce battery storage system costs.

Security:

IONICS program innovations could contribute to energy storage solutions for transportation and the grid, lessening U.S. dependence on imported oil and improving grid resilience.

Environment:

A 10% increase in electric vehicle use would reduce US oil consumption by 3% and reduce total US CO2 emissions by 1%.

Economy:

IONICS program innovations could further establish U.S. businesses as technical leaders in energy storage, encouraging greater use of readily available renewable resources and increasing the competitiveness of electric vehicles.CONTACTS

Contact

ARPA-E Program Director:
Dr. Halle Cheeseman
Project Contact:
Mohamed Taggougui
Press and General Inquiries Email:
ARPA-E-Comms@hq.doe.gov
Project Contact Email:
Mohamed.Taggougui@ionicmaterials.com

Partners

Hunter College
Tufts University
Carnegie Mellon University

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Release Date:
02/26/2016