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

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

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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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Cal Energy Commission awards $3.75M to early-stage clean energy projects; 9 battery projects

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NanoDian : Low-cost, safer, cobalt-free, nanostructured lithium-ion battery cathode material. EnZinc : Safe, high performance rechargeable zinc battery. Nrgtek : Energy storage with sodium iron flow batteries. EndLis Energy : Low-cost, environmentally-sustainable, lithium carbon-based rechargeable batteries.

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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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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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Researchers develop rechargeable hybrid-seawater fuel cell; highly energy density, stable cycling

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The circulating seawater in the open-cathode system results in a continuous supply of sodium ions, endowing the system with superior cycling stability that allows the application of various alternative anodes to sodium metal by compensating for irreversible charge losses. an alloying material), in full sodium-ion configuration.

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

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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. Earlier post.)

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