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首页> 外文期刊>Advanced energy materials >Direct Observation of Alternating Octahedral and Prismatic Sodium Layers in O3-Type Transition Metal Oxides
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Direct Observation of Alternating Octahedral and Prismatic Sodium Layers in O3-Type Transition Metal Oxides

机译:直接观察O3型过渡金属氧化物中交替的八面体和棱柱形钠层

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摘要

The oxygen stacking of O3-type layered sodium transition metal oxides (O3-NaTMO2) changes dynamically upon topotactic Na extraction and reinsertion. While the phase transition from octahedral to prismatic Na coordination that occurs at intermediate desodiation by transition metal slab gliding is well understood, the structural evolution at high desodiation, crucial to achieve high reversible capacity, remains mostly uncharted. In this work, the phase transitions of O3-type layered NaTMO(2)at high voltage are investigated by combining experimental and computational approaches. An OP2-type phase that consists of alternating octahedral and prismatic Na layers is directly observed by in situ X-ray diffraction and high-resolution scanning transmission electron microscopy. The origin of this peculiar phase is explained by atomic interactions involving Jahn-Teller active Fe(4+)and distortion tolerant Ti(4+)that stabilize the local Na environment. The path-dependent desodiation and resodiation pathways are also rationalized in this material through the different kinetics of the prismatic and octahedral layers, presenting a comprehensive picture about the structural stability of the layered materials upon Na intercalation.
机译:O3型分层钠过渡金属氧化物(O3-NATMO2)的氧气堆叠在拓扑NA提取和再生中动态变化。虽然通过过渡金属板滑动在中间脱模发生在中间脱模的八面体到棱镜NA协调的相位转变,但是高撤分的结构演变至关重要,以实现高可逆容量,仍然是显着不公平的。在这项工作中,通过组合实验和计算方法来研究高压下的O3型分层NATMO(2)的相变。通过原位X射线衍射和高分辨率扫描透射电子显微镜直接观察由交替八面体和棱镜NA层组成的OP2型阶段。这种特殊阶段的起源是通过涉及稳定局部Na环境的Jahn-keater活性Fe(4+)和变形耐受Ti(4+)的原子相互作用来解释。依赖于依赖的脱模和恢复途径也通过棱镜和八面体层的不同动力学在该材料中合理化,呈现了关于在NA插层上的层状材料的结构稳定性的综合图。

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  • 来源
    《Advanced energy materials》 |2020年第31期|2001151.1-2001151.13|共13页
  • 作者

    Kim Jae Chul; Kwon Deok-Hwang; Yang Julia H.; Kim Hyunchul; Bo Shou-Hang; Wu Lijun; Kim Haegyeom; Seo Dong-Hwa; Shi Tan; Wang Jingyang; Zhu Yimei; Ceder Gerbrand;

  • 作者单位

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA|Stevens Inst Technol Dept Chem Engn & Mat Sci Hoboken NJ 07030 USA;

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA|Univ Calif Berkeley Dept Mat Sci & Engn Berkeley CA 94720 USA;

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA|Univ Calif Berkeley Dept Mat Sci & Engn Berkeley CA 94720 USA;

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA;

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA|Shanghai Jiao Tong Univ Univ Michigan Shanghai Jiao Tong Univ Joint Inst Shanghai 200240 Peoples R China;

    Brookhaven Natl Lab Condensed Matter Phys & Mat Sci Dept Upton NY 11973 USA;

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA;

    Univ Calif Berkeley Dept Mat Sci & Engn Berkeley CA 94720 USA|Ulsan Natl Inst Sci & Technol UNIST Dept Energy Engn Ulsan 44919 South Korea;

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA|Univ Calif Berkeley Dept Mat Sci & Engn Berkeley CA 94720 USA;

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA|Univ Calif Berkeley Dept Mat Sci & Engn Berkeley CA 94720 USA;

    Brookhaven Natl Lab Condensed Matter Phys & Mat Sci Dept Upton NY 11973 USA;

    Lawrence Berkeley Natl Lab Mat Sci Div Berkeley CA 94720 USA|Univ Calif Berkeley Dept Mat Sci & Engn Berkeley CA 94720 USA;

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  • 正文语种 eng
  • 中图分类
  • 关键词

    energy storage; layered structure; Na-ion batteries; O3 structure; OP2 structure;

    机译:储能;层状结构;Na离子电池;O3结构;OP2结构;

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