Synthesis and Electrochemical Properties of Ni Doped Spinel LiNi_xMn_(2-x)O_4 (0 ≤ x ≤ 0.5) Cathode Materials for Li-Ion Battery

机译：镍离子尖晶石正极材料LiNi_xMn_（2-x）O_4（0≤x≤0.5）的合成及电化学性能

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Spherical pristine LiMn_2O_4 and Ni doped LiNi_xMn_(2-x)O_4 (x=0.1, 0.2, 0.3, 0.4, 0.5) cathode materials for lithium ion battery with high first cycle discharge capacity and excellent cycle performance were synthesized using the solution-combustion technique. XRD analysis revealed peak shift towards higher angle and lattice shrink as a result of Ni doping. CSAFM result confirms LiNi_(0.5)Mn_(1.5)O_4 provides higher current of 10nA than pristine LiMn_2O_4 of 0.05nA. The. EIS result displays that small Ni content (x=0.1, 0.2) doping reduced the impedances of pristine LiMn_2O_4. The composition LiNi_(0 1)Mn_(1.9)O_4 exhibits higher capacity and better cycleability than other Ni content compositions. Charge/discharge cycling result shows that Ni substitution substantially improved the capacity retention of LiMn_2O_4. All Ni doped LiNi_xMn_(2-x)O_4 (x= 0.1, 0.2, 0.3, 0.4, 0.5) compositions are able to retain 99% of their respective first cycle discharge capacities, whereas LiMn_2O_4 retains only 60% of its first cycle discharge capacity of 122 mAh/g after 50 cycles.

机译：利用溶液燃烧技术合成了锂离子电池用球形原始LiMn_2O_4和Ni掺杂的LiNi_xMn_（2-x）O_4（x = 0.1，0.2，0.3，0.4，0.5）正极材料。 XRD分析表明，由于Ni掺杂，导致峰向更大的角度偏移和晶格收缩。 CSAFM结果证实，LiNi_（0.5）Mn_（1.5）O_4提供的原始电流为0.05nA的原始LiMn_2O_4的电流为10nA。的。 EIS结果表明，少量的Ni掺杂（x = 0.1，0.2）降低了原始LiMn_2O_4的阻抗。与其他Ni含量组成相比，组成LiNi_（0 1）Mn_（1.9）O_4表现出更高的容量和更好的循环性。充电/放电循环结果表明，Ni取代实质上改善了LiMn_2O_4的容量保持率。所有掺Ni的LiNi_xMn_（2-x）O_4（x = 0.1、0.2、0.3、0.4、0.5）组分都能保留其各自第一循环放电容量的99％，而LiMn_2O_4仅保留其第一循环放电容量的60％ 50次循环后的电量为122 mAh / g。

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《Emerging materials and processes for energy conversion and storage》|2012年|1-14|共14页
会议地点 Honolulu HI(US)
作者
Mesfin Kebede; Niki Kunjuzwa; Kenneth Ozoemena; Mkhulu Mathe;
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Energy Materials, Materials Science and Manufacturing, Council for Scientific and Industrial Research, P.O. Box 395, Pretoria, South Africa;

Energy Materials, Materials Science and Manufacturing, Council for Scientific and Industrial Research, P.O. Box 395, Pretoria, South Africa;

Energy Materials, Materials Science and Manufacturing, Council for Scientific and Industrial Research, P.O. Box 395, Pretoria, South Africa;

Energy Materials, Materials Science and Manufacturing, Council for Scientific and Industrial Research, P.O. Box 395, Pretoria, South Africa;

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Synthesis and Electrochemical Properties of Ni Doped Spinel LiNi_xMn_(2-x)O_4 (0 ≤ x ≤ 0.5) Cathode Materials for Li-Ion Battery

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