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PNNL team develops sodium-manganese oxide electrodes for sodium-ion rechargeable batteries

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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. The resulting improved electrical capacity and recharging lifetime of the nanowires. low-cost Na-ion battery system for upcoming power and energy. Earlier post.)

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Researchers use graphite positive electrodes in high-capacity rechargeable lithium/chlorine batteries

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DECEMBER 12, 2022

This work could open up widely available, low-cost graphitic materials for high-capacity alkali metal/Cl 2 batteries. The study is published in the Journal of the American Chemical Society. In an earlier study, the researchers reported ∼3.5 2c07826.

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Univ. of Texas researchers propose lithium- or sodium-water batteries as next generation of high-capacity battery technology; applicable for EVs and grid storage

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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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UT Austin team devises new strategy for safe, low-cost, all-solid-state rechargeable Na or Li batteries suited for EVs

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DECEMBER 13, 2016

Researchers at the University of Texas at Austin, including Prof. With this glass, a rechargeable battery with a metallic lithium or sodium anode and an insertion-compound as cathode may require a polymer or liquid catholyte in contact with the cathode. eV, which promises to offer acceptable operation at lower temperatures.

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Low Cost Recharge Austin Li-ion

Researchers find tin nanoparticles promising electrode material for sodium-ion batteries

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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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Researchers propose new VO2 cathode material for aluminum-ion rechargeable battery

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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. Sodium-ion and magnesium-ion batteries, as new energy storage systems in portable devices, have attracted much attention of the investigators. Wang et al. Click to enlarge.

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Stanford team develops sodium-ion battery with performance equivalent to Li-ion, but at much lower cost

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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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UT Austin team identifies promising new cathode material for sodium-ion batteries: eldfellite

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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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Faradion demonstrates proof-of-concept sodium-ion electric bike

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MAY 15, 2015

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. Oxford University was also a partner. Sodium-ion intercalation batteries—i.e., Earlier post.)

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Sodium Concept Li-ion Lithium Ion

ARPA-E awards $42M to 12 projects for advanced EV batteries; EVs4ALL program

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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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ARPA-E awards $43M to 19 energy storage projects to advance electric vehicle and grid technologies

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AUGUST 2, 2012

cost associated with thermal management. Utah State University. Utah State University will develop electronic hardware and. Pennsylvania State University. Pennsylvania State University is developing an innovative. Washington University. Washington University in St. Advanced Sodium Battery.

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

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MARCH 11, 2010

The awards are being made to companies and universities across New York that are involved in advanced research and development of energy storage applications that could benefit transportation, utility Smart Grid applications, renewable energy technologies, and other industries. Next-generation lithium-ion rechargeable batteries.

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Energy Storage New York Lithium Ion Commercial

BASF announces winners of the open innovation contest on energy storage

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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

Goodenough and UT team report new strategy for all-solid-state Na or Li battery suitable for EVs; plating cathodes

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MARCH 1, 2017

lithium, sodium or potassium) on a copper–carbon cathode current collector at a voltage of more than 3.0 Traditional rechargeable batteries use a liquid electrolyte and an oxide as a cathode host into which the working cation of the electrolyte is inserted reversibly over a finite solid-solution range. Murchison at UT Austin.

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DOE Awarding $620M for Smart Grid Demonstration and Energy Storage Projects

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NOVEMBER 25, 2009

(DOE funding $75,161,246, total project value with cost share $150,322,492). In partnership with a consortium of local research institutions, this project deploy smart grid systems at partners’ university campus properties and technology transfer laboratories. Demonstration of Sodium Ion Battery for Grid Level Applications.

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High-capacity GQD-coated VO2 nanoarray electrodes for high-performance Li- and Na-ion batteries

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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. The VO 2 nanoarrays are supported on graphene foam (GF) and coated with a thin (?2

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Sadoway and MIT team demonstrate calcium-metal-based liquid metal battery

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MARCH 23, 2016

MIT professor Donald Sadoway and his team have demonstrated a long-cycle-life calcium-metal-based liquid-metal rechargeable battery for grid-scale energy storage, overcoming the problems that have precluded the use of the element: its high melting temperature, high reactivity and unfavorably high solubility in molten salts. Ouchi et al.

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PNNL team develops sodium-manganese oxide electrodes for sodium-ion rechargeable batteries

Researchers use graphite positive electrodes in high-capacity rechargeable lithium/chlorine batteries

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Univ. of Texas researchers propose lithium- or sodium-water batteries as next generation of high-capacity battery technology; applicable for EVs and grid storage

Webinars

UT Austin team devises new strategy for safe, low-cost, all-solid-state rechargeable Na or Li batteries suited for EVs

Researchers find tin nanoparticles promising electrode material for sodium-ion batteries

Researchers propose new VO2 cathode material for aluminum-ion rechargeable battery

Stanford team develops sodium-ion battery with performance equivalent to Li-ion, but at much lower cost

UT Austin team identifies promising new cathode material for sodium-ion batteries: eldfellite

Faradion demonstrates proof-of-concept sodium-ion electric bike

ARPA-E awards $42M to 12 projects for advanced EV batteries; EVs4ALL program

ARPA-E awards $43M to 19 energy storage projects to advance electric vehicle and grid technologies

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

BASF announces winners of the open innovation contest on energy storage

Goodenough and UT team report new strategy for all-solid-state Na or Li battery suitable for EVs; plating cathodes

DOE Awarding $620M for Smart Grid Demonstration and Energy Storage Projects

High-capacity GQD-coated VO2 nanoarray electrodes for high-performance Li- and Na-ion batteries

Sadoway and MIT team demonstrate calcium-metal-based liquid metal battery

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