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Lithium storage in amorphous TiNi hydride: Electrode for rechargeable lithium-ion batteries

机译:非晶态TiNi氢化物中的锂存储:可充电锂离子电池的电极

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摘要

In this study, amorphous TiNi phase was successfully prepared using mechanically milling for a very short time of 8 h. HRTEM confirms the formation of amorphous phase with the presence of nano-crystalline Fe particles. After hydrogenation (30 bars of H_2 for a duration of 2 h), the electrochemical reaction shows that TiNi hydride/Li cell discharges at a current of one Li for 10 h between 3 V and 0.005 V. The discharge of TiNiH electrode around x = 1 Li corresponds to a capacity of 251 mAh g~(-1) and a hydride composition of TiNiHi.o at an average voltage of 0.4 V. Ex-situ X-ray diffraction pattern collected at the end of the discharge shows a mixture of amorphous TiNi compound and LiH. A general mechanism for the electrochemical reaction is then proposed: α-TiNiH + Li~+ + e~- → α-TiNi + LiH. The results from DFT calculations yield an average cell voltage of 0.396 V, which is in good agreement with the experimental pseudo-plateau occurring at 0.4 V.
机译:在这项研究中,使用机械研磨成功地在短短8小时内制备了非晶态TiNi相。 HRTEM证实了纳米晶Fe颗粒存在下非晶相的形成。氢化(30 bar H_2持续2 h)后,电化学反应表明,TiNi氢化物/ Li电池以1 Li的电流在3 V和0.005 V之间放电10 h。 1 Li对应于251 mAh g〜(-1)的容量和TiNiHi.o的氢化物组成,平均电压为0.4V。放电结束时收集的异位X射线衍射图显示无定形TiNi化合物和LiH。提出了电化学反应的一般机理:α-TiNiH+ Li〜+ + e〜-→α-TiNi+ LiH。 DFT计算得出的结果产生的平均电池电压为0.396 V,这与在0.4 V时发生的实验假高原非常吻合。

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  • 来源
    《Materials Chemistry and Physics》 |2013年第1期|348-354|共7页
  • 作者

    M. Bououdina; Y. Oumellal; L. Dupont; L. Aymard; H. Al-Gharni; A. Al-Hajry; T.A. Maark; A. De Sarkar; R. Ahuja; M.D. Deshpande; Z. Qian; A.B. Rahane;

  • 作者单位

    Nanotechnology Centre, College of Science, University of Bahrain, PO Box 32038, Bahrain,Department of Physics, College of Science, University of Bahrain, PO Box 32038, Bahrain;

    Laboratoire de Reactivite du Solid (RCS), UMR CNRS 6007, 33 rue Saint-Leu, 80039 Amiens, France;

    Laboratoire de Reactivite du Solid (RCS), UMR CNRS 6007, 33 rue Saint-Leu, 80039 Amiens, France;

    Laboratoire de Reactivite du Solid (RCS), UMR CNRS 6007, 33 rue Saint-Leu, 80039 Amiens, France;

    Department of Electronics, University of York, York, UK;

    Department of Physics, College of Science and Arts, Najran University, Najran, Saudi Arabia;

    Condensed Matter Theory Group, Department of Physics and Astronomy, Box 576, Uppsala University, SE-751 20 Uppsala, Sweden;

    Applied Materials Physics, Department of Materials Science and Engineering, Royal Institute of Technology (KTH), SE-100 44 Stockholm, Sweden;

    Condensed Matter Theory Group, Department of Physics and Astronomy, Box 576, Uppsala University, SE-751 20 Uppsala, Sweden,Applied Materials Physics, Department of Materials Science and Engineering, Royal Institute of Technology (KTH), SE-100 44 Stockholm, Sweden;

    Department of Physics, H.P.T. Arts and R.Y.K. Science College, Nasik 422 005, Maharashtra, India;

    Condensed Matter Theory Group, Department of Physics and Astronomy, Box 576, Uppsala University, SE-751 20 Uppsala, Sweden,Applied Materials Physics, Department of Materials Science and Engineering, Royal Institute of Technology (KTH), SE-100 44 Stockholm, Sweden;

    Department of Physics, H.P.T. Arts and R.Y.K. Science College, Nasik 422 005, Maharashtra, India;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Amorphous materials; Powder metallurgy; Electron microscopy; Powder diffraction; Ab initio calculations; Electrochemical properties;

    机译:非晶态材料;粉末冶金;电子显微镜;粉末衍射;从头算起;电化学性质;
  • 入库时间 2022-08-18 00:39:34

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