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    Home»Technology»Preventing Oxygen Release Leads to Safer High-Energy-Density Lithium-Ion Batteries
    Technology

    Preventing Oxygen Release Leads to Safer High-Energy-Density Lithium-Ion Batteries

    By Tohoku UniversityJuly 13, 20211 Comment3 Mins Read
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    Oxygen Release From Battery Materials
    Oxygen release from battery materials can cause thermal runaway. Credit: Takashi Nakamura

    High-valent Ni3+ accelerates oxygen release in lithium-ion battery cathodes, posing safety risks.

    A research group has produced fresh insights about the release of oxygen in lithium-ion batteries, paving the way for more robust and safer high-energy-density batteries.

    Next-generation batteries that store more energy are critical if society is to achieve the UN’s Sustainable Development Goals and realize carbon neutrality. However, the higher the energy density, the higher the likelihood of thermal runaway – the overheating of batteries that can sometimes result in a battery exploding.

    Oxygen released from cathode active material is a trigger for thermal runaway, yet our knowledge of this process is insufficient.

    Researchers from Tohoku University and the Japan Synchrotron Radiation Research Institute (JASRI) investigated the oxygen release behavior and related structural changes of cathode material for lithium-ion batteries LiNi1/3Co1/3Mn1/3O2 (NCM111). NCM111 acted as a model oxide-based battery material through coulometric titration and X-ray diffractions.

    Structural Impact of Oxygen Release in NCM111

    The researchers discovered NCM111 accepts 5 mol% of oxygen release without decomposing and that oxygen release induced structural disordering, the exchange of Li and Ni.

    When oxygen is released, it reduces the transition metals (Ni, Co, and Mn in NCM111), lessening their ability to keep a balanced charge in the materials.

    To evaluate this, the research group utilized soft-Xray absorption spectroscopy at BL27SU SPring-8 – a JASRI operated large-scale synchrotron radiation facility in Japan.

    They observed selective Ni3+ reduction in NCM111 at the beginning stage of oxygen release. After the Ni reduction finished, Co3+ decreased, while Mn4+ remained invariant during 5 mol% of oxygen release.

    “The reduction behaviors strongly suggest that high valent NI (Ni3+) enhances oxygen release significantly,” said Takashi Nakamura, coauthor of the paper.

    Ni3+ Enrichment Leads to Increased Oxygen Loss

    To test this hypothesis, Nakamura and his colleagues prepared modified NCM111 containing more Ni3+ than the original NCM111. To their surprise, they discovered the NCM111 exhibited much more severe oxygen release than expected.

    Based on this, the research group proposed that the high valent transition metals destabilize lattice oxygen in oxide-based battery materials.

    “Our findings will contribute to the further development of high energy density and robust next-generation batteries composed of transition metal oxides,” said Nakamura.

    Reference: “Lattice Oxygen Instability in Oxide-Based Intercalation Cathodes: A Case Study of Layered LiNi1/3Co1/3Mn1/3O2” by Xueyan Hou, Kento Ohta, Yuta Kimura, Yusuke Tamenori, Kazuki Tsuruta, Koji Amezawa and Takashi Nakamura, 23 June 2021, Advanced Energy Materials.
    DOI: 10.1002/aenm.202101005

    Funding: Grant-in-Aid for Scientific Research (JP18K05288?JP19H05814) Research Program for CORE lab of “Dynamic Alliance for Open Innovation Bridging Human, Environment and Materials” in “Network Joint Research Center for Materials and Devices.”

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    Battery Technology Energy Lithium-Ion Tohoku University
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    1 Comment

    1. John Jakson on July 14, 2021 4:41 am

      A zero carbon economy doesn’t require any significant electrical energy storage if the primary energy comes from base load nuclear with molten salt heat storage ie MSRs to match grid demand. No need to long term buffer intermittent electrical energy in Li ion batteries when nuclear can be base load year round.

      Li ion can be mostly reserved for auto and transport use, and that’s already a challenge.

      Annual US energy is about 100XJ of primary energy equiv to 300GJ/capita. As an electrical equiv about 100GJ or around 28,000kWh/capita. If even a small fraction of that needs to be stored long term, at $100/kWh, thats going to cost a fortune.

      Summer solar output is 5* that of winter output in the US NE, thats a lot of low production in winter in an electrified economy that will never be able to build enough Li ion storage for seasonal use.

      Reply
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