Green Car Congress

APRIL 30, 2022

The selected projects are: Advanced Manufacturing Process Innovations – Flex-Ion Battery Innovation Center. The Flex-Ion Battery Innovation Center, a division of Ventra Group Co., will establish a center of excellence for advanced Li-Ion battery manufacturing, in collaboration with partner eCAMION. Lead: Ventra Group Co.;

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Canada Li-ion Emissions Vehicles 304

Green Car Congress

APRIL 3, 2021

Hercules recently completed an agreement with Prieto Battery ( earlier post )—developer of a 3D solid-state Li-ion rechargeable battery—to co-develop and commercialize solid-state batteries for production in North America. How Prieto 3D batteries work. Source: Prieto.

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Li-ion Batteries Battery Lithium Ion 365

Green Car Congress

SEPTEMBER 23, 2011

At left, a traditional approach combines Si (blue spheres) with a polymer binder (light brown) plus carbon (dark brown spheres). At right, the new conductive polymer (purple) continues to bind tightly to the Si particles despite repeated swelling and shrinking. 1 in Si after 650 cycles without any conductive additive. —Gao Liu.

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Polymer Li-ion Lithium Ion Batteries 199

Green Car Congress

JANUARY 20, 2017

Fabricated separators based on aluminum oxide nanowires enhanced the safety and rate capabilities of lithium-ion batteries. This technique could open the door for a range of synthesis opportunities to produce low-cost 1D nanomaterials in large quantities. —Gleb Yushin. —Gleb Yushin.

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Low Cost Georgia Li-ion Batteries 150

Green Car Congress

JANUARY 13, 2021

The goal of the program is to translate the performance achieved at the lab- and bench-scale by previously funded ARPA-E technologies to commercial viability, supporting promising energy technologies that require scaling-up or pre-pilot projects to enable a path to market and ultimately lead to realized commercial impact.

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Li-ion Batteries Battery Polymer 199

Green Car Congress

JUNE 4, 2013

Schematic illustration of 3D porous SiNP/conductive polymer hydrogel composite electrodes. Each SiNP is encapsulated in a conductive polymer surface. A team at Stanford University has developed stable silicon Li-ion battery anodes by incorporating a conducting polymer hydrogel into the Si-based material.

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Li-ion Manufacturer Polymer Deep Cycle 236

Green Car Congress

JANUARY 24, 2014

EnerG2, a company manufacturing advanced nano-structured materials for next-generation energy storage, has introduced a carbon and silicon composite to boost lithium-ion battery capacity and power performance. The composite material has been scaled for commercial manufacturing. Earlier post.).

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Li-ion Carbon Lithium Ion Energy Storage 236

Green Car Congress

JANUARY 28, 2016

A team from Stanford University and the Department of Energy’s SLAC National Accelerator Laboratory has developed a new practical, high-energy-capacity lithium-ion battery anode out of silicon by encapsulating Si microparticles (∼1–3 µm) using conformally synthesized cages of multilayered graphene. Nature Energy ) Click to enlarge.

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Li-ion Lithium Ion Energy Batteries 150

Green Car Congress

FEBRUARY 11, 2016

In … solid-state LIBs [lithium-ion batteries], one important component that needs to be improved to make it more suitable for high performance applications is the electrolyte material. The researchers constructed solid-state Li-ion full cells composed of an LCO, NCM, or LFP cathode, the solid electrolyte, and MCMB anode.

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Li-ion Ni-Li Batteries Battery 150

Green Car Congress

JUNE 19, 2014

ABR, noted Peter Faguy, the DOE manager of the applied battery research program, during his presentation at the Annual Merit Review in Washington, DC, is the difficult regime between the discovery of materials and their application in batteries that can be commercialized. Envia is leading a $3.8-million

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Li-ion PHEV Ni-Li Batteries 316

Green Car Congress

MAY 2, 2017

Li-sulfur batteries are looked to as a likely next-generation higher energy density energy storage system due to the high theoretical capacity, low cost and high earth abundance of sulfur. In addition, when a Li-S cell operates under a lean electrolyte condition, its charge/discharge behavior, cell failure model, etc.

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Li-ion Lithium Sulfur Polymer Energy Storage 150

Green Car Congress

JULY 17, 2020

Area of Interest (AOI) 01a: Lithium Ion Batteries using Silicon-based Anodes-Research. Rational Electrolyte Design for Li-ion Batteries with Micro-Sized Silicon Anodes. AOI 01b: Lithium Ion Batteries using Silicon-based Anodes-Research, Development, and Validation. Project description. Federal share. Enovix Corporation.

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Lithium Ion Vehicles Li-ion Universal 236

Green Car Congress

MAY 25, 2017

This proposal aims to solve these problems by converting organic waste into chemicals with widespread use in polymer and transportation industries. This project focuses on the development and US manufacturing of a new battery membrane that enables low-cost and long-lived Li-ion batteries. Trash2Cash-Energy LLC.

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Grant Li-ion Waste Lithium Sulfur 150

Green Car Congress

MARCH 21, 2018

Researchers at Shanghai Jiao Tong University (SJTU) have developed a polymer binder—PAA-P(HEA-co-DMA)—for use with silicon microparticle (SiMP) anodes. Nonetheless, several technical challenges still limit its commercialization. Si microparticle (SiMP) powder is inexpensive and commercially available.

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Deep Cycle Polymer Li-ion Water 150

Green Car Congress

FEBRUARY 15, 2013

Lithium sulfur batteries are of great interest due to their high specific energy and relatively low cost (e.g., However, Li-S batteries exhibit significant capacity decay over cycling. To overcome this mechanism, they introduced amphiphilic polymers to modify the carbon surface. Credit: ACS, Zheng et al. Click to enlarge.

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Lithium Sulfur Batteries Battery Polymer 334

Green Car Congress

MARCH 22, 2012

Polymer electrolyte membrane fuel cells (PEMFCs) are being developed worldwide as clean energy conversion devices. However, the biggest impact fuel cells could have lies in the commercial automotive sector, which holds great potential to reduce greenhouse gas emissions and air pollution. GM Canada, and Hydrogenics.

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Canada Li-ion Fuel Batteries 262

Green Car Congress

FEBRUARY 19, 2009

CPI) shortly after GM selected CPI and its parent LG Chem as the provider for the Li-ion batteries for the Extended Range Electric Vehicle (E-REV) Chevy Volt. (GM billion, and spends $60 million annually on Li-ion battery research and development. LG Chem provides the Li-ion battery system for Hyundai’s Blue Gen System.

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Li-ion Power Powered Market 170

Green Car Congress

MAY 28, 2015

Small businesses that win awards in these programs keep the rights to any technology developed and are encouraged to commercialize the technology. While the original charter of the program focused on technological innovation, the current programs have evolved to have a greater focus on commercialization. Organization. Description.

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Li-ion Battery Powered Engine Lithium Ion 150

Green Car Congress

OCTOBER 4, 2009

The 2015 date for fuel cell vehicles reinforced remarks made in June by vice president Masatami Takimoto about commercialization prospects.( Design of the fuel cell system and hydrogen storage system plays a critical role in achieving the cost reduction, Yokoyama said. Earlier post.). Conditions for mass introduction. Source: Toyota.

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2015 Toyota Commercial Fuel 315

Green Car Congress

APRIL 1, 2011

John Goodenough, are proposing a strategy for high-capacity next-generation alkali (lithium or sodium)-ion batteries using water-soluble redox couples as the cathode. The high energy storage has stimulated a worldwide study of Li-air batteries. A typical Li-air battery discharges at 2.5-2.7 V vs. Li/Li + at room temperature.

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Sodium Water Li-ion Texas 218

Green Car Congress

NOVEMBER 2, 2011

This approach enabled them to obtain a uniform and thin (around tens of nanometers) sulfur coating on graphene oxide sheets and address some of the challenges retarding the commercialization of Li/S batteries. However, there are a number of challenges in Li/S batteries, Ji et al. Earlier post.). —Ji et al.

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Lithium Sulfur Li-ion Batteries Battery 186

Green Car Congress

AUGUST 10, 2011

Light-weighting materials : Five projects awarded to accelerate commercial availability of lighter weight vehicles using advanced materials that dramatically reduce vehicle weight while maintaining the highest safety standards. This project will develop a new process that enables low-cost, domestic manufacturing of magnesium.

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Carbon Fiber Lithium Ion Li-ion Vehicles 268

Green Car Congress

MAY 16, 2016

Researchers from Hunan University and Changsha University in China have designed 3D hierarchical porous nitrogen-doped aligned carbon nanotubes (HPNACNTs) with well-directed 1D conductive electron paths as scaffold to load sulfur for use as a high-performance cathode in Li-S batteries.

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Carbon Li-ion Lithium Sulfur Transportation 150

Green Car Congress

DECEMBER 16, 2010

The goal of this AOI is to support advanced fuels and lubricants technologies that will enable optimal performance of advanced combustion engines for passenger and commercial vehicle applications. Such fuels should be currently available, or have the potential to become, commercially practical within the next 10 years.

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Li-ion Carbon Fiber Vehicles Low Cost 231

Green Car Congress

JANUARY 18, 2014

VTO is seeking projects that address the major challenges to developing and commercializing batteries for plug?in As described in multiple DOE reports, the main barriers to widespread PEV commercialization are the cost; performance and life; and abuse tolerance of high?energy Specifically: the current cost of high?energy

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Carbon Fiber Engine Battery Powered Fuel 252

Green Car Congress

FEBRUARY 2, 2013

Advanced Electrolytes for Next-Generation Lithium Ion Chemistries. Further, alloying or coating pathways towards low-cost, effective passive films, have not been sufficiently explored in a sound and scientific way. Magnesium (AZ or AM series commercial alloy). Carbon Fiber Polymer Composite.

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Li-ion Fuel Vehicles Lithium Ion 240

Green Car Congress

MARCH 11, 2016

The US Department of Energy (DOE) selected 33 small businesses to work directly with DOE national labs to accelerate the commercialization of new clean energy technologies. Envia will conduct diagnostic investigations of positive and negative electrode materials to understand their exact function and operation in Li-ion batteries.

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Clean Cleaning Energy Li-ion 150

Green Car Congress

APRIL 30, 2010

Electrofuels approaches will use organisms able to extract energy from other sources, such as solar-derived electricity or hydrogen or earth-abundant metal ions. The critical barrier to wider deployment of electric vehicles is the high cost and low energy of today’s batteries. Electrofuels. BASF, LBNL, PNNL).

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Carbon Batteries Battery Li-ion 249

Green Car Congress

FEBRUARY 15, 2022

These new GaN power devices will enable the next generation of low-cost, fast, small, and reliable power electronics, which are key for efficient power conversion in data centers, solar farms, power grids, and electric vehicles. Stanford University. The Ohio State University. University of Washington.

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Clean Cleaning Energy Li-ion 284

Green Car Congress

AUGUST 16, 2016

SuperTruck II builds on the successful SuperTruck I program, which has already led to more than twenty fuel saving technologies that have reached the commercial market, said Acting Assistant Secretary David Friedman. Accelerated Development and Deployment of Low‐Cost Automotive Mg Sheet Components (Area of Interest 3).

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Vehicles Plug-in Lithium Ion Universal 150

Green Car Congress

DECEMBER 17, 2013

Researchers at the University of Waterloo (Canada) and the General Motors Global Research and Development Center have developed a novel, economical flash heat treatment (FHT) for fabricated silicon-based Li-ion electrodes to boost the performance and cycle capability of Li-ion batteries. V vs Li/Li +.

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Li-ion Batteries Battery GM 294

Green Car Congress

SEPTEMBER 14, 2016

The US Department of Energy (DOE) Advanced Research Projects Agency-Energy (ARPA-E) announced $37 million in funding for 16 innovative new projects as part of a new ARPA-E program: Integration and Optimization of Novel Ion-Conducting Solids ( IONICS ). Li-ion conductors that enable the cycling of Li metal without shorting.

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Li-ion Polymer Batteries Battery 150

Green Car Congress

FEBRUARY 27, 2016

IONICS also seeks to develop and apply methods for processing of solid ion conductors and their integration into electrochemical devices. Program Categories include: Lithium (Li) ion conductors that enable the cycling of Li metal without shorting; Selective and low-cost separators for batteries with liquid reactants (e.g.,

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Li-ion Batteries Battery Fuel 150

Green Car Congress

AUGUST 14, 2014

developing beyond Li-ion battery technologies. million in co-funding to support projects focused on beyond lithium-ion battery technologies and reducing friction and wear in the powertrain. Nineteen projects are aimed at reducing the cost and improving the performance of key PEV components. Description. Alcoa, Inc.

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Plug-in Li-ion Plug Vehicles 299

Green Car Congress

JANUARY 21, 2016

Secretary Moniz also announced that two innovative projects at CALSTART and the National Association of Regional Councils will receive $3 million to develop systems that help companies combine their purchasing of advanced vehicles, components, and infrastructure to reduce incremental cost and achieve economies of scale.

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Li-ion Ni-Li Vehicles Grid 150

Green Car Congress

OCTOBER 26, 2009

Eagle Picher, in partnership with the Pacific Northwest National Laboratory, will develop a new generation of high energy, low cost planar liquid sodium beta batteries for grid scale electrical power storage applications. Low Cost, High Energy and Power Density, Nanotube-Enhanced Ultracapacitors. DOE grant: $7,200,000).

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Energy Grant Low Cost Li-ion 231

Green Car Congress

DECEMBER 18, 2009

Selected projects range from unmanned, hovering aircraft for inspecting bridges to a high-speed sorting system for recycling aerospace metals to nanomaterials for advanced batteries, including two projects specifically developing advanced electrode materials for Li-ion batteries. Amprius, Inc., A123Systems, Inc.

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Manufacturer Lithium Ion Li-ion Low Cost 186