High rate capability of the Mg-doped Li-Mn-O spinel prepared via coprecipitated precursor

Xiaoqing Wang; Osamu Tanaike; Masaya Kodama; Hiroaki Hatori

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High rate capability of the Mg-doped Li-Mn-O spinel prepared via coprecipitated precursor

机译：共沉淀前驱体制备的掺Mg的Li-Mn-O尖晶石的高倍率能力

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Coprecipitation was applied to prepare Mg-Mn hydroxide precursor for optimal synthesis of Mg-doped Li-Mn-O spinel. The as-obtained precursor was then mixed with LiOH followed by an annealing at 850℃ for 15 h. The spinel prepared from coprecipitated precursor can deliver over 100mAhg~(-1) at a discharge rate as high as 10C (1.2 A g~(-1)) and retain 100% of the initial capacity in the 45th cycle while the spinel prepared directly from the as-purchased metal salts yields both smaller initial capacity and lower capacity retention after cycling. It was found that the crystallinity is higher and the charge transfer resistance is lower for the spinel prepared via coprecipitated precursor, which maybe resulted from the more homogeneous distribution of metal ion in such a spinel, than that in the spinel prepared from as-purchased reagents.

机译：采用共沉淀法制备Mg-Mn氢氧化物前驱体，以优化Mg掺杂的Li-Mn-O尖晶石的合成。然后将获得的前体与LiOH混合，然后在850℃退火15小时。由共沉淀前体制备的尖晶石可在高达10C（1.2 A g〜（-1））的放电速率下提供超过100mAhg〜（-1）的放电，并在第45次循环中保留100％的初始容量，而直接制备的尖晶石所购入的金属盐中的碳酸盐产生的初始容量较小，循环后的容量保持率较低。发现通过共沉淀前体制备的尖晶石的结晶度较高，而电荷转移阻力较低，这可能是由于这种金属尖晶石中金属离子的分布比购自试剂时的尖晶石更均匀。。

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《Journal of power sources》 |2007年第1期|p.282-287|共6页
作者
Xiaoqing Wang; Osamu Tanaike; Masaya Kodama; Hiroaki Hatori;
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作者单位

Energy Storage Materials Group, Energy Technology Research Institute, National Institute of Advanced, Industrial Science and Technology (AIST), Tsukuba West, 16-1 Onogawa, Tsukuba, Ibaraki 305-8569, Japan;

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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
中图分类能源与动力工程;
关键词
mn spinel; rate capability; coprecipitation; homogeneous distribution; crystallinity; charge transfer resistance;

机译：锰尖晶石;速率能力;共沉淀;均匀分布;结晶度;电荷转移阻力;

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机译：共沉淀前驱体制备尖晶石LiNi0.05Mn1.95O4正极的高速率能力
2. Enhancement of MgAl2O4 spinel formation from coprecipitated precursor by powder processing [J] . A K Bandyopadhyay, B N Samaddar, P G Pal, Bulletin of materials science . 2011,第4期

机译：粉末加工促进共沉淀前体形成MgAl2O4尖晶石
3. Enhancement of MgAl₂O₄ spinel formation from coprecipitated precursor by powder processing [J] . Soumen Pal, A. K. Bandyopadhyay, S. Mukherjee, Bulletin of Materials Science . 2011,第4期

机译：粉末加工促进共沉淀前驱体形成MgAl _{2 O _{4 尖晶石}}
4. High-rate capability of spinel LiNi0.05Mn1.95O4 cathode for Li-ion batteries prepared via coprecipitated precursor [C] . CAO Guangxi, YUE Xiangping ICNFM 2007;International Workshop on Nonferrous Materials . 2007

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5. Effect of precursor and heating rate on manganese cobalt spinel formation for SOFC contact layer application. [D] . Simpson, Joseph James. 2016

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机译：微乳液辅助合成用于高倍率锂离子电池的纳米Li-Mn-O尖晶石阴极
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机译：采用冷冻干燥技术制备粉末的多晶尖晶石。

High rate capability of the Mg-doped Li-Mn-O spinel prepared via coprecipitated precursor

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