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详细信息
    通讯作者:

    马国正

  • [1] AMINE K, TUKAMOTO H, YASUDA H, FUJITA Y. A New Three‐Volt Spinel Li1+xMn1.5Ni0.5O4 for Secondary Lithium Batteries[J]. Electrochem Soc, 1996, 143: 1607-1613.
    [2] BITTIHN R, HERR R, HOGE D. The SWING system, a nonaqueous rechargeable carbon/metal oxide cell[J]. J Power Sources, 1993, 43: 223-231.
    [3] AMARILLA J M, ROJAS R M, ROJO J M. Understanding the sucrose-assisted combustion method: Effects of the atmosphere and fuel amount on the synthesis and electrochemical performances of LiNi0.5Mn1.5O4 spinel [J]. J Power Sources, 2011, 196(14): 5951-5959.
    [4] OHZUKU T, TAKEDA S, IWANAGA M. Fabrication and evaluation of 100 Ah cylindrical lithium ion battery for electric vehicle applications[J]. J. Power Sources, 1999, (81-82): 842-846.
    [5] ZHONG Q, BONAKDARPOUR A, ZHANG M, et al. Synthesis and Electrochemistry of LiNixMn2?xO4[J]. J. Electrochem. Soc., 1997, 144, 205-213.
    [6] WANG Y, CAO G, Developments in Nanostructured Cathode Materials for High-Performance Lithium-Ion Batteries[J]. Adv. Mater., 2008, 20: 2251-2269.
    [7] ZHANG X, CHENG F, ZHANG K, et al. LiNi0.5Mn1.5O4 porous nanorods as high-rate and long-life cathodes for Li-ion batteries[J]. RSC Advances, 2012, 2:5669-5675.
    [8] ARREBOLA J C, CABALLERO A, HERNAN L, et al. PMMA-assisted synthesis of Li1-xNi0.5Mn1.5O4-δ for high-voltage lithium batteries with expanded rate capability at high cycling temperatures[J]. J. Power Sources, 2008, 180:852-858.
    [9] SKJAK-BRAK G. Alginate:biosyntheses and some structure-function relationships relevant to biomedical and biotechnological applications[J]. Biochemistry of Plant Polysaccharides, 1992, 20: 27-33.
    [10] DONATI I, GAMINI A, SKJAK-BRAK G, et al. Determination of the dyadic composition of alginate by means of circular dichroism: a fast and accurate improved method[J]. Carbohydrate Research, 2003, 338: 1139-1142.
    [11] GRASDALEN H, LARESEN B, SMIDSROD O.13C-NMR studies of monomeric composition and sequence in alginate[J]. Carbohydr Res, 1981, 89: 179-191.
    [12] GRASDALEN H. High-field 1H-n.m.r. spectroscopy of alginate: sequential structure and linkage conformation[J]. Carbohydr Res, 1983, 118: 255-260.
    [13] BRACCINI I S, GRASSO R P, PEREZ S. Conformational and configurational features of acidic polysaccharides and their interactions with calcium ions: a molecular modeling investigation[J]. Carbohydrate Research, 1999, 317: 119-130.
    [14] RUSSO R, MALINCONICO M, SANTAGATA G.Effect of cross-linking with calcium ions on the physical properties of alginate films[J]. Biomacromolecules, 2007, 8: 3193-3197.
    [15] ARREBOLA J C, CABALLERO A, HERNAN L, et al. Polymer-mediated growth of highly crystalline nano- and microsized LiNi0.5Mn1.5O4 spinels[J]. Eur J Inorg Chem, 2008, 21: 3295-3302.
    [16] HUANG H, CHEN C H, PEREGO R C, et al. Electrochemical characterization of commercial lithium manganese oxide powders[J]. Solid State Ionics, 2000, 127: 31-42.
    [17] TALYOSEF Y, MARKOVSKY B, SALITRA G, et al. The study of LiNi0.5Mn1.5O4 5V cathodes for Li-ion batteries[J]. J Power Sources, 2005, 146: 664-669.
    [18] YI T, ZHU Y. Synthesis and electrochemistry of 5V LiNi0.4Mn1.6O4 cathodes materials synthesized by different methods[J]. Electrochim Acta, 2008, 53: 3120-3126.

    [1] AMINE K, TUKAMOTO H, YASUDA H, FUJITA Y. A New Three‐Volt Spinel Li1+xMn1.5Ni0.5O4 for Secondary Lithium Batteries[J]. Electrochem Soc, 1996, 143: 1607-1613.
    [2] BITTIHN R, HERR R, HOGE D. The SWING system, a nonaqueous rechargeable carbon/metal oxide cell[J]. J Power Sources, 1993, 43: 223-231.
    [3] AMARILLA J M, ROJAS R M, ROJO J M. Understanding the sucrose-assisted combustion method: Effects of the atmosphere and fuel amount on the synthesis and electrochemical performances of LiNi0.5Mn1.5O4 spinel [J]. J Power Sources, 2011, 196(14): 5951-5959.
    [4] OHZUKU T, TAKEDA S, IWANAGA M. Fabrication and evaluation of 100 Ah cylindrical lithium ion battery for electric vehicle applications[J]. J. Power Sources, 1999, (81-82): 842-846.
    [5] ZHONG Q, BONAKDARPOUR A, ZHANG M, et al. Synthesis and Electrochemistry of LiNixMn2?xO4[J]. J. Electrochem. Soc., 1997, 144, 205-213.
    [6] WANG Y, CAO G, Developments in Nanostructured Cathode Materials for High-Performance Lithium-Ion Batteries[J]. Adv. Mater., 2008, 20: 2251-2269.
    [7] ZHANG X, CHENG F, ZHANG K, et al. LiNi0.5Mn1.5O4 porous nanorods as high-rate and long-life cathodes for Li-ion batteries[J]. RSC Advances, 2012, 2:5669-5675.
    [8] ARREBOLA J C, CABALLERO A, HERNAN L, et al. PMMA-assisted synthesis of Li1-xNi0.5Mn1.5O4-δ for high-voltage lithium batteries with expanded rate capability at high cycling temperatures[J]. J. Power Sources, 2008, 180:852-858.
    [9] SKJAK-BRAK G. Alginate:biosyntheses and some structure-function relationships relevant to biomedical and biotechnological applications[J]. Biochemistry of Plant Polysaccharides, 1992, 20: 27-33.
    [10] DONATI I, GAMINI A, SKJAK-BRAK G, et al. Determination of the dyadic composition of alginate by means of circular dichroism: a fast and accurate improved method[J]. Carbohydrate Research, 2003, 338: 1139-1142.
    [11] GRASDALEN H, LARESEN B, SMIDSROD O.13C-NMR studies of monomeric composition and sequence in alginate[J]. Carbohydr Res, 1981, 89: 179-191.
    [12] GRASDALEN H. High-field 1H-n.m.r. spectroscopy of alginate: sequential structure and linkage conformation[J]. Carbohydr Res, 1983, 118: 255-260.
    [13] BRACCINI I S, GRASSO R P, PEREZ S. Conformational and configurational features of acidic polysaccharides and their interactions with calcium ions: a molecular modeling investigation[J]. Carbohydrate Research, 1999, 317: 119-130.
    [14] RUSSO R, MALINCONICO M, SANTAGATA G.Effect of cross-linking with calcium ions on the physical properties of alginate films[J]. Biomacromolecules, 2007, 8: 3193-3197.
    [15] ARREBOLA J C, CABALLERO A, HERNAN L, et al. Polymer-mediated growth of highly crystalline nano- and microsized LiNi0.5Mn1.5O4 spinels[J]. Eur J Inorg Chem, 2008, 21: 3295-3302.
    [16] HUANG H, CHEN C H, PEREGO R C, et al. Electrochemical characterization of commercial lithium manganese oxide powders[J]. Solid State Ionics, 2000, 127: 31-42.
    [17] TALYOSEF Y, MARKOVSKY B, SALITRA G, et al. The study of LiNi0.5Mn1.5O4 5V cathodes for Li-ion batteries[J]. J Power Sources, 2005, 146: 664-669.
    [18] YI T, ZHU Y. Synthesis and electrochemistry of 5V LiNi0.4Mn1.6O4 cathodes materials synthesized by different methods[J]. Electrochim Acta, 2008, 53: 3120-3126.
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出版历程
  • 收稿日期:  2014-10-10
  • 修回日期:  2014-11-11
  • 刊出日期:  2015-05-25

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