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Thread: Lithium SULFIDE battery tech - 50% lighter but only 100 recharges

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    Default Lithium SULFIDE battery tech - 50% lighter but only 100 recharges

    New generation of batteries could better power aerial drones, underwater robots
    By Robert F. ServiceMar. 8, 2018 , 1:00 PM
    Take that, Tesla. Researchers at Oxis Energy, a startup company in Abingdon, U.K., are building batteries with a combination of lithium and sulfur that store nearly twice as much energy per kilogram as the lithium-ion batteries in electric cars today. The batteries don't last very long, conking out after 100 or so charging cycles. But the company hopes that for applications such as aerial drones, submersibles, and power packs that could be shouldered by soldiers, weight will matter more than price or longevity. Oxis's small pilot factory aims for an annual production of 10,000 to 20,000 batteries, which sit in thin pouches the size of cellphones.

    The Gigafactory this is not—at least not yet. But Chief Technology Officer David Ainsworth says the company has its eye on a far bigger prize: the $100 billion electric vehicle market. "The next few years will be critical," Ainsworth says. He and others see lithium-sulfur as the heir apparent to lithium-ion as the dominant battery technology.

    Metal oxide cathodes are reliable. But the metals—typically a combination of cobalt, nickel, and manganese—are expensive. And because it takes two metal atoms working together to hold a single electron, these cathodes are heavy, which limits the capacity of these cells to about 200 watt-hours per kilogram (Wh/kg). Sulfur is much cheaper, and each sulfur atom can hold two electrons. Theoretically, a battery with a sulfur cathode can store 500 Wh/kg or more.

    Now, advances are coming on all fronts. Three groups have made strides in solving problems at the cathode. Last year, for example, researchers led by Helms reported in Nature Communications that they added a polymer layer to a carbon-sulfur cathode, sealing in the polysulfides and enabling the battery to survive 100 charging cycles. Another group, led by Arumugam Manthiram at the University of Texas in Austin, replaced the graphite in a cathode with highly conductive graphene—graphite in sheets just a single atom thick. As they reported in the 12 January issue of ACS Energy Letters, the graphene cathodes held five times as much sulfur as traditional graphite ones, thereby boosting energy storage. And 2 weeks ago researchers led by Nanfeng Zheng, a chemist at Xiamen University in China, reported in Joule that they had created an ultrathin "separator" by topping a thin sheet of polypropylene with nitrogen-doped carbon particles. The separator sits atop the cathode, traps polysulfides, and converts them to harmless lithium-sulfide particles. That increased the energy output of the cells and helped them survive 500 charging cycles.

    Others are working to fix the polysulfide problem by tweaking the electrolyte. In the 25 May 2017 issue of ACS Central Science, Nazar and her colleagues reported that they had made an electrolyte that permits the passage of lithium ions but inhibits the creation of soluble polysulfides.

    Many teams are also targeting the anode, aiming to replace the lithium and graphite combination with pure lithium metal. That could boost the capacity of lithium-ion batteries to 500 Wh/kg—enough to drive a car nearly 500 kilometers between charges—and yield even bigger gains for lithium-sulfur batteries. To date, however, pure lithium anodes have been stymied by problems during charging, when lithium atoms migrate back from the cathode. They tend to pile up in one spot, creating spiky growths that can pierce the battery and cause shorts and even fires. Oxis Energy and another battery startup, Sion Power in Tucson, Arizona, say they have developed proprietary barriers around the anode that prevent the spiky growths. And this week in Nature Energy, researchers at Cornell University reported stabilizing their lithium anode with a tin alloy.
    Last edited by lumen aeternum; 03-10-2018 at 03:33 PM.

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