Commercial, Energy, Lithium Titanate and Universal

Toshiba to supply Lithium-titanate battery for 2MW energy storage system project in UK; 1MWh SCiB

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JUNE 24, 2014

Toshiba Corporation will supply the battery for the United Kingdom’s first 2MW scale lithium-titanate battery based Energy Storage System (ESS) to support grid management. The company’s 1MWh SCiB battery will be installed in a primary substation in central England in September.

Lithium Titanate

Lithium Titanate Energy Storage Supplies Energy

LLTO anode material for safe batteries with a long cycle life

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AUGUST 9, 2020

Researchers at Karlsruhe Institute of Technology (KIT) and Jilin University in Changchun/China have investigated a highly promising anode material for future high-performance batteries: lithium lanthanum titanate with a perovskite crystal structure (LLTO). Illustration: Fei Du/Jilin University.

Lithium Titanate

Lithium Titanate Lithium Ion Batteries Battery

NYSERDA Commits $8M to Develop and Commercialize 19 New York Battery and Energy-Storage Technology Projects

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MARCH 11, 2010

The New York State Energy Research and Development Authority (NYSERDA) will award $8 million to help develop or commercialize 19 advanced energy storage projects. The 19 projects, which include two lithium-air efforts, will leverage $7.3 The 19 projects, which include two lithium-air efforts, will leverage $7.3

Energy Storage

Energy Storage New York Commercial Lithium Ion

Researchers develop nanoscale LTO anode with superior high temperature performance

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MAY 10, 2016

In addition, high reversible capacity, almost no solid electrolyte interphase (SEI) layer, promising high rate capability, and low self-discharge are some of the trademark properties of the LTO material, making them attractive candidates for the high energy applications, especially for electric vehicles sector. —Alaboina et al.

Li-ion

Li-ion Lithium Titanate North Carolina 2016

GM Ventures invests in battery-electric bus company Proterra

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JUNE 13, 2011

a leading maker of battery-electric commercial transit buses. While this investment will help Proterra commercialize its electric bus and fast-charging technology, it also helps to address the future challenges of urban mobility. near Clemson University International Center for Automotive Research. Source: GM. Click to enlarge.

GM

GM San Antonio Companies Lithium Titanate

Researchers Develop Higher Performance Li-Ion Electrode Materials Using Ultracentrifugal Processing

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MAY 8, 2010

Researchers at the Naoi Laboratory at the Tokyo University of Agriculture and Technology have used an in situ sol-gel process induced by ultra-centrifugal mechanical agitation to add an active material inside carbon for use as electrode materials in lithium-ion batteries to improve performance.

Li-ion

Li-ion Lithium Titanate 2008 Lithium Ion

MIT researchers develop method to make smaller, safer, and faster lithium-rich ceramic electrolyte

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JULY 15, 2019

The findings are reported in a paper in Nature Energy. Key to the new technique for processing the solid-state battery electrolyte is alternating layers of the active electrolyte lithium garnet component (chemical formula, Li 6.25 La 3 Zr 2 O 12 , or LLZO) with layers of lithium nitride (chemical formula Li 3 N).

MIT

MIT Li-ion Lithium Ion Lithium Titanate

President Obama Announces 48 Projects to Receive $2.4B in Grants for Next-Generation of Batteries and Electric Vehicles; To be Combined with $2.4B in Industry Cost-Share

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AUGUST 5, 2009

These projects, selected through a highly competitive process by the Department of Energy (DOE), are intended to accelerate the development of US manufacturing capacity for batteries and electric drive components as well as the deployment of electric drive vehicles. . Production of high energy density nano-carbon for ultracapacitors.

Grant

Grant Lithium Ion Obama St. Louis

BCG Report Expects Battery Costs Will Constrain Widespread Market Adoption of Fully Electric Vehicles, Absent a Technology Breakthrough; Forecasts 26% of Major Market New Cars in 2020 To be Hybrid or Electric

Green Car Congress

JANUARY 8, 2010

The study, a companion to one released in January 2009 that analyzed the technical and cost tradeoffs of competing alternative power-train technologies, addresses the two principal variables in BCG’s analysis of the developing market for electric cars: the technical attributes and the costs of lithium-ion batteries for electric-vehicle applications.

Fully Electric

Fully Electric 2020 Market Lithium Ion

EV Driven

Toshiba to supply Lithium-titanate battery for 2MW energy storage system project in UK; 1MWh SCiB

LLTO anode material for safe batteries with a long cycle life

NYSERDA Commits $8M to Develop and Commercialize 19 New York Battery and Energy-Storage Technology Projects

Researchers develop nanoscale LTO anode with superior high temperature performance

GM Ventures invests in battery-electric bus company Proterra

Researchers Develop Higher Performance Li-Ion Electrode Materials Using Ultracentrifugal Processing

MIT researchers develop method to make smaller, safer, and faster lithium-rich ceramic electrolyte

President Obama Announces 48 Projects to Receive $2.4B in Grants for Next-Generation of Batteries and Electric Vehicles; To be Combined with $2.4B in Industry Cost-Share

BCG Report Expects Battery Costs Will Constrain Widespread Market Adoption of Fully Electric Vehicles, Absent a Technology Breakthrough; Forecasts 26% of Major Market New Cars in 2020 To be Hybrid or Electric

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