Green Car Congress

OCTOBER 26, 2012

Tin (Sn) shows promise as a robust electrode material for rechargeable sodium-ion (Na-ion) batteries, according to a new study by a team from the University of Pittsburgh and Sandia National Laboratory. Rechargeable Na-ion batteries work on the same basic principle as Li-ion batteries—i.e.,

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Sodium Li-ion Ni-Li Battery 210

Green Car Congress

DECEMBER 4, 2013

Cycle performance of Li cells with (a, b) Se?, (c, New composite materials based on selenium (Se) sulfides used as the cathode in a rechargeable lithium-ion battery could increase Li-ion density five times, according to research carried out at the US Department of Energy’s Advanced Photon Source at Argonne National Laboratory.

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Li-ion Energy Lithium Ion Lithium Sulfur 225

Green Car Congress

NOVEMBER 3, 2011

A team of researchers at the US Department of Energy’s Argonne National Laboratory has synthesized amorphous titanium dioxide nanotube (TiO 2 NT) electrodes directly grown on current collectors without binders and additives to use as an anode for sodium-ion batteries. Earlier post.).

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Sodium Li-ion Ni-Li Battery 210

Green Car Congress

APRIL 1, 2011

Example of a lithium-water rechargeable battery. Researchers at the University of Texas, including Dr. 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 present sodium-sulfur battery operates above 300 °C.

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Sodium Li-ion Water Texas 218

Green Car Congress

OCTOBER 10, 2017

Stanford researchers have developed a sodium-ion battery (SIB) that can store the same amount of energy as a state-of-the-art lithium ion, at substantially lower cost. Thus, further research is required to find better sodium host materials. The sodium salt makes up the cathode; the anode is made up of phosphorous.

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Sodium Li-ion Battery Batteries 186

Green Car Congress

JUNE 12, 2013

Schematics of Li + /Na + mixed-ion battery. Lithium-intercalation compounds and sodium-intercalation compounds are used for anode and cathode, respectively. During charging (or discharging), the storage (or release) of Li + takes place at anode, and the release (or storage) of Na + occurs at cathode. Chen et al.

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Li-ion Battery Batteries Sodium 170

Green Car Congress

APRIL 28, 2015

Supported by an ARPA-E grant, LiRAP has proven to be a safe alternative compared to the liquid electrolytes used in most of today’s lithium ion batteries. The LiRAP solid electrolytes conduct Li + ions well at high voltage and high current, providing much enhanced energy density and power capacity as well as safety. Oliveira, A.

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Li-ion Sodium Lithium Sulfur Battery 150

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. The battery exhibits excellent reversibility and relatively long cycle life compared to earlier Al-ion efforts, the team said. Wang et al. Click to enlarge. —Wang et al.

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Recharge Li-ion Battery Batteries 240

Green Car Congress

FEBRUARY 13, 2012

Researchers at US Department of Energy (DOE) Pacific Northwest National Laboratory have demonstrated a new tin-antimony (SnSb/C) nanocomposite based on sodium (Na) alloying reactions as an anode for Na-ion battery applications. Li alloys have been extensively investigated as high capacity anodes for Li-ion batteries.

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Li-ion Sodium Battery Batteries 276

Green Car Congress

DECEMBER 29, 2014

Researchers from Nanyang Technical University (NTU) in Singapore have shown high-capacity, high-rate, and durable lithium- and sodium-ion battery (LIB and NIB) performance using single-crystalline long-range-ordered bilayered VO 2 nanoarray electrodes. VO 2 nanobelts are beneficial to fast ion diffusion. Credit: ACS, Chao et al.

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Li-ion Ni-Li Sodium Battery 186

Green Car Congress

OCTOBER 21, 2011

Hydro-Québec (Canada) and Technifin (South Africa) have entered into an intellectual property collaboration agreement relating to the licensing of their respective intellectual property (IP) in lithium titanate spinel oxide (LTO) technologies, notably for lithium-ion battery applications. It operates at 1.5

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Lithium Titanate Li-ion South Africa Lithium Ion 231

Green Car Congress

AUGUST 20, 2013

A battery-powered train could use non-electrified and diesel lines, and recharge their batteries at terminal stations—i.e., This train will be adapted by Bombardier and fitted with two different forms of batteries: lithium (iron magnesium) phosphate and hot sodium nickel salt.

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Sodium Li-ion Battery Powered Battery 186

Green Car Congress

MARCH 1, 2012

Cycling performance of Li/SeS 2 ?C, Researchers at Argonne National Laboratory have developed selenium and selenium–sulfur (Se x S y )-based cathode materials for a new class of room-temperature lithium and sodium batteries. Unlike the widely studied Li/S system, both Se and Se x S y can be cycled to high voltages (up to 4.6

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Recharge Ni-Li Li-ion Battery 220

Green Car Congress

MAY 15, 2015

E-bike powered by Faradion prototype Na-ion battery pack. British battery R&D company Faradion has demonstrated a proof-of-concept electric bike powered by sodium-ion batteries at the headquarters of Williams Advanced Engineering, which collaborated in the development of the bike. Sodium-ion intercalation batteries—i.e.,

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Sodium Concept Li-ion Lithium Ion 150

Green Car Congress

SEPTEMBER 24, 2015

Professor John Goodenough, the inventor of the lithium-ion battery, and his team at the University of Texas at Austin have identified a new cathode material made of the nontoxic and inexpensive mineral eldfellite (NaFe(SO 4 ) 2 ), presenting a significant advancement in the quest for a commercially viable sodium-ion battery.

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Sodium Austin Li-ion Lithium Ion 150

Green Car Congress

JANUARY 11, 2023

ARPA-E selected the following 12 teams from universities, national laboratories and the private sector to address and remove key technology barriers to EV adoption by developing next-generation battery technologies: 24M Technologies will develop low-cost and fast-charging sodium metal batteries with good low-temperature performance for EVs.

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Li-ion Battery Batteries Sodium 256

Green Car Congress

JULY 6, 2016

Materials researchers at the Swiss Paul Scherrer Institute PSI in Villigen and the ETH Zurich have developed a very simple and cost-effective procedure for significantly enhancing the performance of conventional Li-ion rechargeable batteries by improving only the design of the electrodes without changing the underlying materials chemistry.

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Li-ion Battery Batteries Lithium Ion 170

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. Not only is Ca 10,000 times more abundant than Li, but it can also yield—in theory—similar battery performance.

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Ni-Li Li-ion Battery Batteries 302

Green Car Congress

MAY 28, 2015

Chemists at the University of Waterloo have identified the key reaction that takes place in sodium-air batteries. Understanding how sodium-oxygen batteries work has implications for developing the more powerful lithium-oxygen battery, which has been proposed by some as the “holy grail” of electrochemical energy storage.

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Sodium Li-ion Battery Batteries 150

Green Car Congress

MARCH 4, 2011

in partnership with Kyoto University, has developed a lower temperature molten-salt rechargeable battery that promises to cost only about 10% as much as lithium ion batteries. The new battery uses sodium-containing substances melted at a high temperature. The Nikkei reports that Sumitomo Electric Industries Ltd.,

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Molten Salt Universal Lithium Ion Li-ion 199

Green Car Congress

JANUARY 30, 2012

A team from Stanford University and Ruhr-Universität Bochum have demonstrated the novel concept of a “desalination battery” that uses an electrical energy input to extract sodium and chloride ions from seawater and to generate fresh water. A constant current is then applied in order to remove the ions from the solution.

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Concept Battery Batteries Sodium 246

Green Car Congress

MARCH 23, 2015

Purdue researchers have developed a process to manufacture carbon-nanoparticle and microsheet anodes for Li-ion batteries from polystyrene and starch-based packing peanuts, respectively. These carbonaceous electrodes could also be used for rechargeable sodium-ion batteries.

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Li-ion Convert Battery Batteries 150

Green Car Congress

OCTOBER 13, 2015

Researchers in South Korea have demonstrated new type of room-temperature and high-energy density sodium rechargeable battery using a sulfur dioxide (SO 2 )-based inorganic molten complex catholyte that serves as both a Na + -conducting medium and cathode material (i.e. catholyte). mA cm −2 ). The cutoff voltage for charge is 4.05 V.

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Li-ion Battery Batteries Recharge 150

Green Car Congress

DECEMBER 13, 2016

John Goodenough, known around the world for his pioneering work that led to the invention of the rechargeable lithium-ion battery, have devised a new strategy for a safe, low-cost, all-solid-state rechargeable sodium or lithium battery cell that has the required energy density and cycle life for a battery that powers an all-electric road vehicle.

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Low Cost Recharge Austin Li-ion 150

Green Car Congress

AUGUST 2, 2012

Temperature Regulation for Lithium-Ion Cells. environment of a lithium-ion battery in real-time. Strain Estimation Technology for Lithium-Ion Batteries. tracking physical expansion and contraction of lithium-ion. Advanced Sodium Battery. MSRI will design advanced sodium battery membranes that. Laboratory.

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Energy Storage Grid Electric Vehicles Energy 299

Green Car Congress

MARCH 1, 2017

The cells use a solid glass electrolyte having a Li + or Na + conductivity >10 -2 S cm -1 at 25 ˚C with a motional enthalpy ≈ 0.06 lithium, sodium or potassium) on a copper–carbon cathode current collector at a voltage of more than 3.0 eV, which promises to offer acceptable operation at lower temperatures.

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Li-ion Sodium Battery Batteries 150

Green Car Congress

OCTOBER 15, 2020

rechargeable battery?technology?that MIplus Solar Inc is developing a single device architecture for the seamless and simultaneous generation and storage of energy, via a solar cell and an alkali metal-ion battery, that are integrated together. Innovasion Labs PINC, Inc. is developing a?rechargeable technology?that

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Clean Cleaning Energy Energy Storage 371

Green Car Congress

JANUARY 26, 2017

For the purposes of the report, advanced batteries are defined as rechargeable batteries with a chemistry that has only entered into the market as a mass-produced product in the last two decades for use in the automotive or stationary energy storage system sectors. Advanced batteries energy capacity by segment, world markets: 3Q 2016.

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2016 Nickel Metal Hydride Lead Acid Nickel Cadmium 150

Green Car Congress

MAY 14, 2010

Although direct chemical reactions between water and certain metals—alkali metals including lithium, sodium and others—can produce a large amount of hydrogen in a short time, these reactions are too intense to be controlled. the high-school chemistry demonstration of the violent reaction between sodium and water.). Haoshen Zhou.

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Water Lithium Ion Li-ion Hydrogen 186

Green Car Congress

MARCH 26, 2018

Researchers led by a team from MIT, with colleagues from Oak Ridge National Laboratory (ORNL), BMW Group, and Tokyo Institute of Technology have developed a fundamentally new approach to alter ion mobility and stability against oxidation of lithium ion conductors—a key component of rechargeable batteries—using lattice dynamics.

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MIT Lithium Ion Li-ion Design 170

Green Car Congress

JANUARY 18, 2017

In a review paper in the journal Nature Materials , Jean-Marie Tarascon (Professor at College de France and Director of RS2E, French Network on Electrochemical Energy Storage) and Clare Gray (Professor at the University of Cambridge), call for integrating the sustainability of battery materials into the R&D efforts to improve rechargeable batteries.

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Li-ion Ni-Li Battery Batteries 150

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

MARCH 27, 2018

metal anodes with high Coulombic efficiency (99.5%) and excellent capacity retention (>80% after 700 cycles) of Li||LiNi 1/3 Mn 1/3 Co 1/3 O 2 batteries. Conventional electrolytes used in lithium-ion batteries are not suitable for lithium-metal batteries because they will lead to dendritic growth and very low Coulombic ef?

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Li-ion Battery Batteries Lithium Ion 150

Green Car Congress

MARCH 7, 2018

Lithium-metal batteries are among the most promising candidates for high-density energy storage technology, but uncontrolled lithium dendrite growth, which results in poor recharging capability and safety hazards, currently is hindering their commercial potential. —Hanqing Jiang.

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Li-ion Arizona Lithium Ion Sodium 150

Green Car Congress

JULY 28, 2023

The researchers made an anode from the laser-scribed material and tested it in a lithium-ion battery over 1000 charge-discharge cycles. This could help to develop a new generation of rechargeable batteries that use cheaper and more abundant metals than lithium, for example. Resources Bayhan, Z., El-Demellawi, J. Alhajji, E.,

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Li-ion Lithium Ion Sodium Connect 150

Plug In India

SEPTEMBER 7, 2022

By Kamlesh & Raphae Every major automaker has announced plans to build Lithium-Ion battery gigafactories. Video: EV Guru: Sodium-Ion Batteries are Coming Sooner Than You think! So there is a lot of Lithium out there, even if we continue to use Lithium-Ion batteries for the next 20 years, we are good.

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Sodium Li-ion Battery Batteries 59

Cars That Think

DECEMBER 24, 2023

The battery in her EV is a variation on the flow battery , a design in which spent electrolyte is replaced rather than recharged. The cell of a flow battery uses two chemical solutions containing ions, one acting as the anolyte (adjacent to the anode), the other as the catholyte (near the cathode).

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Lithium Ion Battery Batteries Li-ion 145