A delithiated LiNi0.65Co0.25Mn0,10O2 electrode material : A structural, magnetic and electrochemical study
Identifieur interne : 000186 ( PascalFrancis/Curation ); précédent : 000185; suivant : 000187A delithiated LiNi0.65Co0.25Mn0,10O2 electrode material : A structural, magnetic and electrochemical study
Auteurs : Mohammed Dahbi [Maroc] ; J. Magnus Wikberg [Suède] ; Ismael Saadoune [Maroc] ; Torbjörn Gustafsson [Suède] ; Peter Svedlindh [Suède] ; Kristina Edström [Suède]Source :
- Electrochimica acta [ 0013-4686 ] ; 2009.
Descripteurs français
- Pascal (Inist)
- Matériau électrode, Préparation, Cathode, Aimantation, Cyclage, Lithium Oxyde, Nickel Oxyde, Cobalt Oxyde, Manganèse Oxyde, Composé n éléments, Capacité spécifique, Décharge, Diffraction RX, Structure lamellaire, Accumulateur électrochimique, Propriété magnétique, Caractéristique électrique, Batterie lithium ion.
English descriptors
- KwdEn :
- Cathode, Cobalt Oxides, Cycling, Discharge, Electrical characteristic, Electrode material, Lamellar structure, Lithion ion batteries, Lithium Oxides, Magnetic properties, Magnetization, Manganese Oxides, Multi-element compound, Nickel Oxides, Preparation, Secondary cell, Specific capacity, X ray diffraction.
Abstract
A crystalline LiNi0.65Co0.25Mn0.10O2 electrode material was synthesized by the combustion method at 900°C for 1 h. Rietveld refinement shows less than 3% of Li/Ni disorder in the structure. Lithium extraction involves only the Ni2+/Ni4+ redox couple while Co3+ and Mn4+ remain electrochemically inactive. No structural transition was detected during cycling in the whole composition range 0 < x < 1.0. Furthermore, the hexagonal cell volume changes by only 3% when all lithium was removed indicating a good mechanical stability ofthe studied compound. LiNi0.65Co0.25Mn0.10O2 has a discharge capacity of 150 mAh/g in the voltage range 2.5-4.5 V, but the best electrochemical performance was obtained with an upper cut-off potential of 4.3 V. Magnetic measurements reveal competing antiferromagnetic and ferromagnetic interactions - varying in strength as a function of lithium content - yielding a low temperature magnetically frustrated state. The evolution of the magnetic properties with lithium content confirms the preferential oxidation of Ni ions compared to Co3+ and Mn4+ during the delithiation process.
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Co<sub>0.25</sub>
Mn<sub>0,10</sub>
O<sub>2</sub>
electrode material : A structural, magnetic and electrochemical study</title>
<author><name sortKey="Dahbi, Mohammed" sort="Dahbi, Mohammed" uniqKey="Dahbi M" first="Mohammed" last="Dahbi">Mohammed Dahbi</name>
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Co<sub>0.25</sub>
Mn<sub>0,10</sub>
O<sub>2</sub>
electrode material : A structural, magnetic and electrochemical study</title>
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<term>Electrical characteristic</term>
<term>Electrode material</term>
<term>Lamellar structure</term>
<term>Lithion ion batteries</term>
<term>Lithium Oxides</term>
<term>Magnetic properties</term>
<term>Magnetization</term>
<term>Manganese Oxides</term>
<term>Multi-element compound</term>
<term>Nickel Oxides</term>
<term>Preparation</term>
<term>Secondary cell</term>
<term>Specific capacity</term>
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<term>Lithium Oxyde</term>
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<term>Manganèse Oxyde</term>
<term>Composé n éléments</term>
<term>Capacité spécifique</term>
<term>Décharge</term>
<term>Diffraction RX</term>
<term>Structure lamellaire</term>
<term>Accumulateur électrochimique</term>
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<front><div type="abstract" xml:lang="en">A crystalline LiNi<sub>0.65</sub>
Co<sub>0.25</sub>
Mn<sub>0.10</sub>
O<sub>2</sub>
electrode material was synthesized by the combustion method at 900°C for 1 h. Rietveld refinement shows less than 3% of Li/Ni disorder in the structure. Lithium extraction involves only the Ni<sup>2+</sup>
/Ni<sup>4+</sup>
redox couple while Co<sup>3+</sup>
and Mn<sup>4+</sup>
remain electrochemically inactive. No structural transition was detected during cycling in the whole composition range 0 < x < 1.0. Furthermore, the hexagonal cell volume changes by only 3% when all lithium was removed indicating a good mechanical stability ofthe studied compound. LiNi<sub>0.65</sub>
Co<sub>0.25</sub>
Mn<sub>0.10</sub>
O<sub>2</sub>
has a discharge capacity of 150 mAh/g in the voltage range 2.5-4.5 V, but the best electrochemical performance was obtained with an upper cut-off potential of 4.3 V. Magnetic measurements reveal competing antiferromagnetic and ferromagnetic interactions - varying in strength as a function of lithium content - yielding a low temperature magnetically frustrated state. The evolution of the magnetic properties with lithium content confirms the preferential oxidation of Ni ions compared to Co<sup>3+</sup>
and Mn<sup>4+</sup>
during the delithiation process.</div>
</front>
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<fA08 i1="01" i2="1" l="ENG"><s1>A delithiated LiNi<sub>0.65</sub>
Co<sub>0.25</sub>
Mn<sub>0,10</sub>
O<sub>2</sub>
electrode material : A structural, magnetic and electrochemical study</s1>
</fA08>
<fA11 i1="01" i2="1"><s1>DAHBI (Mohammed)</s1>
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<fA11 i1="02" i2="1"><s1>MAGNUS WIKBERG (J.)</s1>
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<fA11 i1="03" i2="1"><s1>SAADOUNE (Ismael)</s1>
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<fA11 i1="04" i2="1"><s1>GUSTAFSSON (Torbjörn)</s1>
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<fA11 i1="05" i2="1"><s1>SVEDLINDH (Peter)</s1>
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<fA11 i1="06" i2="1"><s1>EDSTRÖM (Kristina)</s1>
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<fA14 i1="01"><s1>ECME, FST Marrakech, University Cadi Ayyad, BP549, Av. A. Khattabi</s1>
<s2>Marrakech</s2>
<s3>MAR</s3>
<sZ>1 aut.</sZ>
<sZ>3 aut.</sZ>
</fA14>
<fA14 i1="02"><s1>Department of Engineering Sciences, Uppsala University, Box 534</s1>
<s2>751 21 Uppsala</s2>
<s3>SWE</s3>
<sZ>2 aut.</sZ>
<sZ>5 aut.</sZ>
</fA14>
<fA14 i1="03"><s1>Department of Materials Chemistry, Uppsala University, Box 538</s1>
<s2>751 21 Uppsala</s2>
<s3>SWE</s3>
<sZ>4 aut.</sZ>
<sZ>6 aut.</sZ>
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<fC01 i1="01" l="ENG"><s0>A crystalline LiNi<sub>0.65</sub>
Co<sub>0.25</sub>
Mn<sub>0.10</sub>
O<sub>2</sub>
electrode material was synthesized by the combustion method at 900°C for 1 h. Rietveld refinement shows less than 3% of Li/Ni disorder in the structure. Lithium extraction involves only the Ni<sup>2+</sup>
/Ni<sup>4+</sup>
redox couple while Co<sup>3+</sup>
and Mn<sup>4+</sup>
remain electrochemically inactive. No structural transition was detected during cycling in the whole composition range 0 < x < 1.0. Furthermore, the hexagonal cell volume changes by only 3% when all lithium was removed indicating a good mechanical stability ofthe studied compound. LiNi<sub>0.65</sub>
Co<sub>0.25</sub>
Mn<sub>0.10</sub>
O<sub>2</sub>
has a discharge capacity of 150 mAh/g in the voltage range 2.5-4.5 V, but the best electrochemical performance was obtained with an upper cut-off potential of 4.3 V. Magnetic measurements reveal competing antiferromagnetic and ferromagnetic interactions - varying in strength as a function of lithium content - yielding a low temperature magnetically frustrated state. The evolution of the magnetic properties with lithium content confirms the preferential oxidation of Ni ions compared to Co<sup>3+</sup>
and Mn<sup>4+</sup>
during the delithiation process.</s0>
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<s5>01</s5>
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<s5>01</s5>
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<fC03 i1="01" i2="X" l="SPA"><s0>Material electrodo</s0>
<s5>01</s5>
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<fC03 i1="02" i2="X" l="FRE"><s0>Préparation</s0>
<s5>02</s5>
</fC03>
<fC03 i1="02" i2="X" l="ENG"><s0>Preparation</s0>
<s5>02</s5>
</fC03>
<fC03 i1="02" i2="X" l="SPA"><s0>Preparación</s0>
<s5>02</s5>
</fC03>
<fC03 i1="03" i2="X" l="FRE"><s0>Cathode</s0>
<s5>03</s5>
</fC03>
<fC03 i1="03" i2="X" l="ENG"><s0>Cathode</s0>
<s5>03</s5>
</fC03>
<fC03 i1="03" i2="X" l="SPA"><s0>Cátodo</s0>
<s5>03</s5>
</fC03>
<fC03 i1="04" i2="X" l="FRE"><s0>Aimantation</s0>
<s5>04</s5>
</fC03>
<fC03 i1="04" i2="X" l="ENG"><s0>Magnetization</s0>
<s5>04</s5>
</fC03>
<fC03 i1="04" i2="X" l="SPA"><s0>Imanación</s0>
<s5>04</s5>
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<fC03 i1="05" i2="X" l="FRE"><s0>Cyclage</s0>
<s5>05</s5>
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<fC03 i1="05" i2="X" l="ENG"><s0>Cycling</s0>
<s5>05</s5>
</fC03>
<fC03 i1="05" i2="X" l="SPA"><s0>Ciclaje</s0>
<s5>05</s5>
</fC03>
<fC03 i1="06" i2="X" l="FRE"><s0>Lithium Oxyde</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>06</s5>
</fC03>
<fC03 i1="06" i2="X" l="ENG"><s0>Lithium Oxides</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>06</s5>
</fC03>
<fC03 i1="06" i2="X" l="SPA"><s0>Litio Óxido</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>06</s5>
</fC03>
<fC03 i1="07" i2="X" l="FRE"><s0>Nickel Oxyde</s0>
<s2>NC</s2>
<s2>FX</s2>
<s2>NA</s2>
<s5>07</s5>
</fC03>
<fC03 i1="07" i2="X" l="ENG"><s0>Nickel Oxides</s0>
<s2>NC</s2>
<s2>FX</s2>
<s2>NA</s2>
<s5>07</s5>
</fC03>
<fC03 i1="07" i2="X" l="SPA"><s0>Niquel Óxido</s0>
<s2>NC</s2>
<s2>FX</s2>
<s2>NA</s2>
<s5>07</s5>
</fC03>
<fC03 i1="08" i2="X" l="FRE"><s0>Cobalt Oxyde</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>08</s5>
</fC03>
<fC03 i1="08" i2="X" l="ENG"><s0>Cobalt Oxides</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>08</s5>
</fC03>
<fC03 i1="08" i2="X" l="SPA"><s0>Cobalto Óxido</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>08</s5>
</fC03>
<fC03 i1="09" i2="X" l="FRE"><s0>Manganèse Oxyde</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>09</s5>
</fC03>
<fC03 i1="09" i2="X" l="ENG"><s0>Manganese Oxides</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>09</s5>
</fC03>
<fC03 i1="09" i2="X" l="SPA"><s0>Manganeso Óxido</s0>
<s2>NC</s2>
<s2>NA</s2>
<s5>09</s5>
</fC03>
<fC03 i1="10" i2="X" l="FRE"><s0>Composé n éléments</s0>
<s5>10</s5>
</fC03>
<fC03 i1="10" i2="X" l="ENG"><s0>Multi-element compound</s0>
<s5>10</s5>
</fC03>
<fC03 i1="10" i2="X" l="SPA"><s0>Compuesto n elementos</s0>
<s5>10</s5>
</fC03>
<fC03 i1="11" i2="X" l="FRE"><s0>Capacité spécifique</s0>
<s5>11</s5>
</fC03>
<fC03 i1="11" i2="X" l="ENG"><s0>Specific capacity</s0>
<s5>11</s5>
</fC03>
<fC03 i1="11" i2="X" l="SPA"><s0>Capacidad específica</s0>
<s5>11</s5>
</fC03>
<fC03 i1="12" i2="X" l="FRE"><s0>Décharge</s0>
<s5>12</s5>
</fC03>
<fC03 i1="12" i2="X" l="ENG"><s0>Discharge</s0>
<s5>12</s5>
</fC03>
<fC03 i1="12" i2="X" l="SPA"><s0>Descarga</s0>
<s5>12</s5>
</fC03>
<fC03 i1="13" i2="X" l="FRE"><s0>Diffraction RX</s0>
<s5>13</s5>
</fC03>
<fC03 i1="13" i2="X" l="ENG"><s0>X ray diffraction</s0>
<s5>13</s5>
</fC03>
<fC03 i1="13" i2="X" l="SPA"><s0>Difracción RX</s0>
<s5>13</s5>
</fC03>
<fC03 i1="14" i2="X" l="FRE"><s0>Structure lamellaire</s0>
<s5>14</s5>
</fC03>
<fC03 i1="14" i2="X" l="ENG"><s0>Lamellar structure</s0>
<s5>14</s5>
</fC03>
<fC03 i1="14" i2="X" l="SPA"><s0>Estructura lamelar</s0>
<s5>14</s5>
</fC03>
<fC03 i1="15" i2="X" l="FRE"><s0>Accumulateur électrochimique</s0>
<s5>32</s5>
</fC03>
<fC03 i1="15" i2="X" l="ENG"><s0>Secondary cell</s0>
<s5>32</s5>
</fC03>
<fC03 i1="15" i2="X" l="SPA"><s0>Acumulador electroquímico</s0>
<s5>32</s5>
</fC03>
<fC03 i1="16" i2="X" l="FRE"><s0>Propriété magnétique</s0>
<s5>33</s5>
</fC03>
<fC03 i1="16" i2="X" l="ENG"><s0>Magnetic properties</s0>
<s5>33</s5>
</fC03>
<fC03 i1="16" i2="X" l="SPA"><s0>Propiedad magnética</s0>
<s5>33</s5>
</fC03>
<fC03 i1="17" i2="X" l="FRE"><s0>Caractéristique électrique</s0>
<s5>34</s5>
</fC03>
<fC03 i1="17" i2="X" l="ENG"><s0>Electrical characteristic</s0>
<s5>34</s5>
</fC03>
<fC03 i1="17" i2="X" l="SPA"><s0>Característica eléctrica</s0>
<s5>34</s5>
</fC03>
<fC03 i1="18" i2="X" l="FRE"><s0>Batterie lithium ion</s0>
<s4>CD</s4>
<s5>96</s5>
</fC03>
<fC03 i1="18" i2="X" l="ENG"><s0>Lithion ion batteries</s0>
<s4>CD</s4>
<s5>96</s5>
</fC03>
<fN21><s1>208</s1>
</fN21>
</pA>
</standard>
</inist>
</record>
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