Ford favoring bulk-type solid-state battery for next-gen energy storage
Green Car Congress
APRIL 5, 2017
Ford is exploring a variety of “beyond Li-ion” solutions, including Lithium-sulfur, Lithium-air and solid-state lithium-ion batteries.
Green Car Congress
APRIL 5, 2017
Ford is exploring a variety of “beyond Li-ion” solutions, including Lithium-sulfur, Lithium-air and solid-state lithium-ion batteries.
Green Car Congress
DECEMBER 8, 2014
Consultancy Frost &Sullivan has selected UK-based lithium-sulfur battery developer OXIS Energy to receive the 2014 European Frost & Sullivan Award for Technology Innovation. For specific military applications, OXIS Energy is confident of achieving a significant weight reduction in excess of 50% in the near future.
Green Car Congress
SEPTEMBER 28, 2016
BioSolar, a developer of energy storage technology and materials, has begun development of a high energy anode for current- and next-generation lithium batteries. While this anode is an independent technology, the Company will seek synergies with the Super Cathode technology it has been developing. Earlier post.).
Green Car Congress
OCTOBER 26, 2015
They begin by observing that the EU’s goal of 95 gCO 2 /km fleet average emissions by 2020 can only be met by means of extended range electric vehicles or all-electric vehicles in combination with the integration of renewable energy (e.g., wind and solar). fold larger than the values projected for advanced LiBs. This is ≈1.3-fold
Green Car Congress
FEBRUARY 11, 2012
Vorbeck Materials , a startup company based in Jessup, Maryland, is using a Pacific Northwest National Laboratory (PNNL)-developed method for developing graphene for better lithium air and lithium sulfur batteries. Vorbeck, in collaboration with PNNL and Princeton, is working to rapidly bring this new technology to market.
Green Car Congress
APRIL 30, 2010
The US Department of Energy is awarding $106 million in funding for 37 research projects selected in the second round by the DOE’s Advanced Research Projects Agency-Energy (ARPA-E). This process is less than 1% efficient at converting sunlight to stored chemical energy. Batteries for Electrical Energy Storage in Transportation.
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