• Mashup Score: 0
    Automakers’ Bold Plans for Electric Vehicles Spur U.S. Battery Boom - 2 year(s) ago

    Meeting ambitious manufacturing goals will require batteries—lots of them—as an electric vehicle (EV) can use hundreds to thousands of individual lithium-ion batteries.

    Source: www.dallasfed.org
    Categories: Cardiologists, Latest Headlines
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      hcg_md

      Planned investment in US #battery gigafactories now exceeds $40 billion, per the Dallas Federal Reserve. More than 15 facilities or expansions have been announced since 2021 alone, up from six between 2018 and 2020. https://t.co/SEUbu7UkX7 via @DallasFed

  • Mashup Score: 4
    A medium-entropy transition metal oxide cathode for high-capacity lithium metal batteries - Nature Communications - 2 year(s) ago

    Structural instability is a major drawback of high-capacity lithium-based battery cathodes. Here, the authors report a cathode active material with a medium-entropy state created by partial cation disordering capable of restraining the structural evolution in the high-capacity operated spinel phase.

    Source: Nature
    Categories: General Medicine News, Latest Headlines
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      NatureComms

      Are you curious to know how the structural stability of a Li-based #battery positive electrode active material is affected by its #entropy content? Then, read the new paper published by Cheng-Yan Xu & colleagues #batterytwitter #battchat 👇👇👇👇 https://t.co/68mm83XY6W https://t.co/bLtE42y88Q

  • Mashup Score: 16
    A sustainable chitosan-zinc electrolyte for high-rate zinc-metal batteries - 2 year(s) ago

    Zn-metal battery is a promising clean energy-storage device, but its application is hindered by uncontrolled Zn deposition in the Zn-metal anode. We find that a biomaterial-derived chitosan-Zn electrolyte enables favorable Zn-platelet deposition due to its high mechanical strength, high Zn2+ conductivity, and water bonding capability. The chitosan-Zn electrolyte not only enables high-rate and…

    Source: Matter
    Categories: General Medicine News, Latest Headlines
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      CellPressNews

      Scientists create a zinc #battery with a biodegradable electrolyte from an unexpected source—crab shells. Read more in @Matter_CP: https://t.co/VCKDUmel1O @YanYao2 @LiangbingHu https://t.co/NtRBK2WOo3

  • Mashup Score: 27
    A sustainable chitosan-zinc electrolyte for high-rate zinc-metal batteries - 2 year(s) ago

    Zn-metal battery is a promising clean energy-storage device, but its application is hindered by uncontrolled Zn deposition in the Zn-metal anode. We find that a biomaterial-derived chitosan-Zn electrolyte enables favorable Zn-platelet deposition due to its high mechanical strength, high Zn2+ conductivity, and water bonding capability. The chitosan-Zn electrolyte not only enables high-rate and…

    Source: Matter
    Categories: General Medicine News, Latest Headlines
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    • Profile photo of CellPressNews
      CellPressNews

      Scientists create a zinc #battery with a biodegradable electrolyte from an unexpected source—crab shells. Read more in @Matter_CP: https://t.co/VCKDUmeSRm @YanYao2 @LiangbingHu https://t.co/MHzj179j2d

  • Mashup Score: 1
    A new concept for low-cost batteries - 2 year(s) ago

    MIT engineers designed a battery made from inexpensive, abundant materials, that could provide low-cost backup storage for renewable energy sources. Less expensive than lithium-ion battery technology, the new architecture uses aluminum and sulfur as its two electrode materials with a molten salt electrolyte in between.

    Source: EurekAlert!
    Categories: General Medicine News, Latest Headlines
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      EurekAlert

      Engineers from @MIT designed a #battery made from inexpensive, abundant materials, that could provide low-cost backup storage for #renewableenergy sources #sulfur #electrochemistry https://t.co/tlZgl6Q4oe

  • Mashup Score: 0
    Impedance-based forecasting of lithium-ion battery performance amid uneven usage - Nature Communications - 2 year(s) ago

    Accurate forecasts of lithium-ion battery performance will ease concerns about the reliability of electric vehicles. Here, the authors leverage electrochemical impedance spectroscopy and machine learning to show that future capacity can be predicted amid uneven use, with no historical data requirement.

    Source: Nature
    Categories: General Medicine News, Latest Headlines
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      NatureComms

      🔋 JUST PUBLISHED 🔋 Congratulations to @penelopekjones_ @iamalphalee at @Cambridge_Uni and Ulrich Stimming @SciencesNCL for their research work on the impedance-based forecasting of lithium-ion #battery performance #battchat #batterytwitter #openaccess https://t.co/QIkJBlwVz8 https://t.co/b6D20q0Krc

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