Green Car Congress

NOVEMBER 1, 2018

A team from Monash University, a leading university in Australia, and the Toyota Research Institute North America (TRINA), a division of Toyota Motor North America R&D (TMNA) based in Ann Arbor, Michigan, reports a novel family of closo-boron-cluster based room temperature ionic liquids (RTILs). Photo Credit: Dr. Mega Kar.

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Universal Li-ion Toyota North America 283

Green Car Congress

APRIL 30, 2019

Researchers at the University of Science and Technology Beijing, with colleagues at Beijing Institute of Technology, have demonstrated the potential of rechargeable tellurium (Te) nanowire positive electrodes to construct ultrahigh-capacity rechargeable tellurium-aluminum batteries (TABs). A g -1 ) along with an initial 1.4

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Recharge Batteries Battery Li-ion 261

Green Car Congress

MARCH 12, 2019

Rechargeable lithium metal batteries with increased energy density, performance, and safety may be possible with a newly-developed, solid-electrolyte interphase (SEI), according to Penn State researchers. Mallouk, Evan Pugh University Professor of Chemistry. Credit: Donghai Wang,Penn State. —Thomas E.

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Recharge Polymer Batteries Battery 305

Green Car Congress

OCTOBER 28, 2011

John Goodenough from the University of Texas as Austin, has found one of the most effective catalysts yet discovered for the oxygen evolution reaction (OER) for use in water-splitting to produce hydrogen or in rechargeable metal-air batteries. energy storage applications is a critical element in the societal.

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MIT Recharge Hydrogen Batteries 326

Green Car Congress

APRIL 6, 2021

Friend Family Distinguished Professor of Engineering, have been exploring the use of low-cost materials to create rechargeable batteries that will make energy storage more affordable. A paper on the work is published in Nature Energy. The group previously demonstrated the potential of zinc-anode batteries.

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Batteries Battery Carbon Fiber Lithium Ion 454

Green Car Congress

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. Next-generation lithium-ion rechargeable batteries. College of Nanoscale Science and Engineering of the University at Albany. Cornell University.

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Energy Storage New York Lithium Ion Commercial 218

Green Car Congress

MARCH 13, 2020

Commercial fast-charging stations subject electric car batteries to high temperatures and high resistance that can cause them to crack, leak, and lose their storage capacity, according to researchers at the University of California, Riverside (UCR) in a new open-access study published in the journal Energy Storage.

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International Commercial Li-ion Charging 524

Green Car Congress

JUNE 18, 2011

million (US$5 million) research project to create a new class of fast rechargeable zinc-polymer batteries for hybrid and small electric vehicle applications. The PolyZion (Fast rechargeable zinc-polymer battery based on ionic liquids) received funding of €2.4 —Dr Karl S Ryder, University of Leicester. million (US$3.4

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Polymer Recharge Electric Vehicles Batteries 240

Green Car Congress

MAY 18, 2009

Researchers in the UK are developing a rechargeable lithium-air battery that could deliver a ten-fold increase in energy capacity compared to that of currently available lithium-ion cells. The project addresses a number of the materials issues necessary to realize this high energy storage battery based on a non-aqueous O 2 electrode.

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Lithium Air Li-ion Recharge Batteries 262

Green Car Congress

NOVEMBER 30, 2013

A team from the University of Science and Technology Beijing is proposing a new super-valent battery based on aluminium ion intercalation and deintercalation. Nowadays, due to their outstanding energy and power density, Li-ion batteries have become a mainstay for EES [electrical energy storage]. Wang et al.

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Recharge Li-ion Batteries Battery 240

Green Car Congress

SEPTEMBER 19, 2009

New research by MIT scientists suggests that carbon nanotubes could be used to create elastic energy storage systems with energy densities that could be three orders of magnitude higher than those of conventional steel springs, and comparable to Li-ion batteries with potentially more durability and reliability. Hill et al.

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Energy Storage Li-ion MIT Carbon 231

Green Car Congress

MARCH 8, 2013

Schematic illustration of the aqueous rechargeable lithium battery (ARLB) using the coated lithium metal as anode, LiMn 2 O 4 as cathode and 0.5 Researchers from Fudan University in China and Technische Universität Chemnitz in Germany have developed an aqueous rechargeable lithium battery (ARLB) using coated Li metal as the anode.

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Li-ion Low Cost Recharge Ni-Li 281

Green Car Congress

JANUARY 30, 2018

a startup founded by former Stanford University researchers developing next-generation battery technology for potential aerospace and industrial applications. Cuberg developed an advanced lithium metal rechargeable battery cell that is designed to be a drop-in solution to existing large-scale battery manufacturing processes.

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Recharge Batteries Battery Grant 218

Green Car Congress

OCTOBER 10, 2018

Novel materials can considerably improve storage capacity and cycling stability of rechargeable batteries. Conversion batteries based on electrochemical material conversion allow for an increase of the stored amount of energy, while battery weight is reduced. —Sarkar et al.

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Energy Storage Conversion Kits Energy 220

Green Car Congress

NOVEMBER 24, 2015

The winning concepts were: A molten air battery that uses a molten salt electrolyte at elevated temperature from Professor Stuart Licht at George Washington University. A novel rechargeable zinc battery from the research group of Professors Paul Wright and James Evans from the University of California, Berkeley.

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Energy Storage Molten Salt North Carolina Energy 150

Green Car Congress

AUGUST 22, 2013

The US Department of Energy (DOE) Advanced Research Projects Agency - Energy (ARPA-E) will award approximately $36 million to 22 projects to develop transformational electric vehicle (EV) energy storage systems using innovative chemistries, architectures and designs. University of Houston. Princeton University.

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Lithium Ion Range Zinc Air San Diego 360

Green Car Congress

JUNE 13, 2011

Last week’s 4 th Symposium on Energy Storage: Beyond Lithium-ion , hosted by the Pacific Northwest National Laboratory (PNNL), brought together researchers tackling the “Beyond Li-ion” problem by working on a number of different platforms (e.g., Earlier post.).

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Li-ion Recharge Design Batteries 210

Green Car Congress

JUNE 7, 2011

The resulting improved electrical capacity and recharging lifetime of the nanowires. low-cost Na-ion battery system for upcoming power and energy. storage systems, the team concludes in a paper published in the journal Advanced Materials. The resulting improved electrical capacity and recharging lifetime of the nanowires.

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Sodium Recharge Li-ion Batteries 218

CleanTechnica EVs

SEPTEMBER 3, 2024

Energy Innovation Hub teams will emphasize multi-disciplinary fundamental research to address long-standing and emerging challenges for rechargeable batteries WASHINGTON, D.C. continued] The post $125 Million for Research to Enable Next-Generation Batteries & Energy Storage appeared first on CleanTechnica.

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Energy Storage Energy Batteries Battery 128

Green Car Congress

JULY 14, 2010

Ilhan Aksay’s group at Princeton University, has demonstrated that small quantities of high-quality graphene can dramatically improve the power and cycling stability of Li-ion batteries, while maintaining high-energy storage capacities. Vorbeck Materials Corp., PNNL, in collaboration with Prof. Earlier post.).

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Li-ion Recharge Batteries Battery 170

Green Car Congress

SEPTEMBER 29, 2009

Norfolk Southern unveiled a prototype 1,500-horsepower switching locomotive that relies solely on rechargeable batteries for power yesterday at its Juniata Locomotive Shop in Altoona, Pa. of Energy (DOE), the Federal Railroad Administration (FRA), and The Pennsylvania State University.

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Lead Acid Energy Storage Pennsylvania Recharge 230

Green Car Congress

JUNE 7, 2013

Among the details: The DOE awarded Powdermet $1M to commercialize its high dialectric nanoparticle filler, which can increase capacitor energy density by 20x to 100x over current technology while reducing size and weight. Huge for EVs and renewables, where energy storage has been an issue.

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Energy Storage Commercial Energy Renewable 170

Green Car Congress

AUGUST 24, 2016

A team at the Ohio State University has developed a membrane that regulates bi-directional ion transport across it as a function of its redox state and that could be used as a programmable smart membrane separator in future supercapacitors and redox flow batteries. plugin EVs to Tesla’s 85 kWh battery pack). —Herya and Sundaresan.

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Energy Storage Energy Li-ion Powered 150

Green Car Congress

NOVEMBER 7, 2014

The result is ultra-high-energy, safe and low-cost solid-state rechargeable batteries. In October, Solid Power became an Affiliate Member of the US Department of Energy’s Joint Center for Energy Storage Research (JCESR). JCESR’s goal is to create new breakthrough energy storage technologies.

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Companies Powered Power Energy Storage 255

Green Car Congress

JUNE 10, 2022

the key to addressing the low-temperature capacity loss lies in adjusting the surface electron configurations of the carbon anode to reinforce the coordinate interaction between the solvated Li + and adsorption sites for Li + desolvation and reduce the activation energy of the charge-transfer process. C and maintained 85.9%

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Li-ion Carbon Lithium Ion Batteries 418

Green Car Congress

JULY 20, 2011

The University of Illinois at Urbana-Champaign has entered into a licensing agreement with Xerion Advanced Battery Corp under which Xerion has the exclusive right to bring the University’s patented StructurePore electrode technology to the market. Earlier post.). Earlier post.). Xerion Advanced Battery Corp. doi: 10.1038/nnano.2011.38.

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Illinois Universal Nickel Metal Hydride Commercial 199

Green Car Congress

SEPTEMBER 6, 2012

Contour Energy Systems, Inc, developer of new fluorine-based battery chemistries, nanomaterials science and manufacturing processes for lithium-ion energy storage systems ( earlier post ) is merging with Li-ion battery maker ActaCell Energy Systems, a spin-off from the University of Texas at Austin ( earlier post.

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Li-ion Energy Companies Batteries 218

Green Car Congress

APRIL 6, 2021

Dr. Lamp received his MSc in physics from the Technical University of Munich in 1989. Lamp has been the leader of the “Technology and Concepts Electric Energy Storage” group and, since 2012, of the “Battery Cell Technology” department at BMW. In 1993, he obtained his PhD in general physics.

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Batteries Battery GM BMW 365

Green Car Congress

MARCH 25, 2009

a surface engineering and nanotechnology co-development company and Exide Technologies, one of the world’s largest producers and recyclers of lead-acid batteries, have formed an alliance to develop innovative energy storage solutions. Whitesides of Harvard University. Nano-Terra, Inc., Mountain Power Inc.

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Energy Storage Lithium Ion Energy Lead Acid 150

Green Car Congress

FEBRUARY 10, 2022

Out of several candidates that could replace Li in rechargeable batteries, calcium (Ca) stands out as a promising metal. Haesun Park, Chung-Ang University, co-corresponding author. Not only is Ca 10,000 times more abundant than Li, but it can also yield—in theory—similar battery performance. —Prof. 202101698.

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Ni-Li Li-ion Batteries Battery 302

Green Car Congress

OCTOBER 13, 2014

Researchers from Nanyang Technological University (NTU Singapore) led by Professor Xiaodong Chen have developed a new TiO 2 gel material for Li-ion battery anodes. A battery equipped with the new anode material can be recharged up to 70% in only 2 minutes. The new battery will also be able to endure more than 10,000 charging cycles.

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Li-ion Singapore Lithium Ion Batteries 290

Green Car Congress

DECEMBER 13, 2011

have signed a Memorandum of Understanding (MoU) to establish a joint venture for high-volume production of superior quality Lithium Iron Phosphate (LFP); LFP is a cost-effective, safe and eco-friendly cathode material for use in rechargeable lithium-ion batteries. Süd-Chemie AG and LG Chem, Ltd.

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Li-ion Lithium Ion Manufacturer Batteries 281

Green Car Congress

AUGUST 30, 2013

We’re excited about the impact this new technology could have on electric vehicles, especially as it relates to cost and the need to recharge. The rechargeable system is based on a reversible electrochemical reaction combining the best properties of a fuel cell and flow battery for stationary and mobile applications.

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Water Energy Batteries Battery 273

Green Car Congress

JANUARY 21, 2013

John Goodenough at the University of Texas at Austin and colleague Kyu-Sung Park have written a perspective paper on Li-ion batteries (LIBs), published in the Journal of the American Chemical Society. More recently, at the University of Texas, Austin, Dr. Goodenough patented a new class of iron phosphate materials. Earlier post.).

Li-ion 262

Li-ion PHEV Transportation Batteries 262

Green Car Congress

JULY 18, 2009

Exide Technologies entered into a Cooperative Research and Development Agreement (CRADA) with the US Department of Energy’s Savannah River National Laboratory (SRNL) and the University of Idaho to develop and commercialize improvements on lead-acid battery technology for applications including hybrid electric vehicles and renewable energy storage.

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Lead Acid Idaho Universal Batteries 150

Green Car Congress

SEPTEMBER 13, 2013

Researchers at George Washington University led by Dr. Stuart Licht have introduced the principles of a new class rechargeable molten air batteries that offer amongst the highest intrinsic electric energy storage capabilities. Energy Environ. Generalized form of the molten air battery. Licht et al. Batteries'

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Energy Batteries Battery Recharge 309

Green Car Congress

JULY 31, 2014

In the journal Nature Materials , the team led by professor Keith Stevenson reports a new energy storage mechanism for pseudocapacitor electrodes that promises to boost the energy density and power density of pseudocapacitor devices. —Mefford et al. —Tyler Mefford, graduate student and lead author. Resources.

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Energy Storage Store Cheap Recharge 231