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51.
采用高温固相法合成出层状锂离子电池正极材料LiNi1/3Mn1/3Co1/3O2。通过XRD、ICP、SEM和电化学测试手段对产物的结构、组成、形貌及电化学性能进行了研究。XRD结果表明此方法合成的LiNi1/3Mn1/3Co1/3O2具有标准的α-NaFeO2型层状结构,SEM照片显示颗粒粒径大约在500 nm左右,粒径分布较窄。以20 mA·g-1电流密度放电,充放电电压在2.8~4.4 V之间,其首次放电比容量为170 mAh·g-1,40次循环容量保持率为85.3%。进一步加入石墨导电剂后,同样条件下首次放电比容量变为179 mAh·g-1,50次循环容量保持率为89.6%。容量衰减主要发生在前10次循环。XRD和SEM测试表明循环初期容量衰减的原因是由材料本体结构变化和界面反应共同作用的结果。 相似文献
52.
利用湿法反应制备的LiV3O8的锂离子扩散特性 总被引:4,自引:0,他引:4
利用V2O5•nH2O湿凝胶和Li2CO3作原料,通过溶液反应和低温焙烧的方法合成了用于锂离子电池正极的LiV3O8.对其前驱体和产品分别进行DTA-TG、XRD表征.LiV3O8用作锂离子电池正极的电化学性能利用恒电流充放电测试进行研究.实验表明活性材料LiV3O8具有较高的充放容量和良好的循环性能.LiV3O8电极的锂离子化学扩散系数由恒电位间歇滴定技术(PITT)来确定,其值依据Li1+xV3O8中x值的不同在10-8~10-10 cm2•s-1的变化范围内.获得的锂离子的扩散活化能为:Ea=25~42 kJ•mol-1(x=0.18~2.5).认为锂离子扩散的最大活化能是由锂离子在Li4V3O8相中的扩散决定的. 相似文献
53.
Impact Responses of Prismatic Lithium-Ion Battery Based on the Membrane Factor Method北大核心CSCD 下载免费PDF全文
Aimed at the internal short circuit problem due to large deformation of the prismatic lithium-ion battery cell under impact loadings, a simplified battery model was first established. Then the motion equations of velocity and displacement based on the membrane factor method were proposed. With the effects of the face-sheet thickness and the densification region on the normalized final deflection, impact response characteristics of prismatic battery cells were investigated in detail. The results show that, the improved motion equations involving the membrane factor can reflect the dynamic response mechanisms of the prismatic battery cell under impact loadings, and the large deflection under high-speed impact can be predicted. With the increase of the face-sheet thickness, the deflection of the battery cell’s lower part decreases obviously. However, the densification region expands with the face-sheet thickness. The deflection and the densification region of the cell’s lower part both increase with the inner core density of the battery. This proposed impact model provides a theoretical guidance for the multi-functional integrated dynamic design of prismatic battery cells. © 2022 Editorial Office of Applied Mathematics and Mechanics. All rights reserved. 相似文献
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55.
近年来,人们对二次锂电池的正极进行了不少研究。许多过渡金属氧化物或硫化物,如V_6O(13),Li_(1+x)V_3O_8,TiS_2,MoS_2等被认为是较好的正极材料。Pistoia等研究了Li_(1+x)V_3O_8钒青铜的电化学性能得出,当Li浓度高时,由于电子定域作用使电荷屏蔽效应 相似文献
56.
碳包覆LiFePO4的一步固相法制备及高温电化学性能 总被引:8,自引:0,他引:8
Carbon coated LiFePO4 cathode material was synthesized by one-step solid-state reaction and characterized by X-ray diffraction (XRD), field-emission-scanning electron microscope (FESEM). Electrochemical performances of the material as cathode in lithium-ion battery were investigated at medium and elevated temperature (30 and 55 ℃) by galvanostatic charge-discharge and A.C. impedance tests. The results show that carbon coated LiFePO4 powder exhibits a well-crystallized olivine structure and spherical morphology with an average particle size of about 500 nm. Galvanostatic charge-discharge tests show that the reversible discharge capacity at 1 C and 1.5 C rates was improved from 121 and 105 mAh·g-1 at 30 ℃ to 136 and 123 mAh·g-1 at 55℃, respectively, while the enhancement of high temperature on electrochemical performance is less obvious at a rate lower than 0.5 C. Impedance spectra analyses indicate that the cathode material has a remarkably higher lithium-ion diffusivity at 55 ℃ than that at 30 ℃, which improves the electrochemical performance at high temperature. 相似文献
57.
A low-cost lead-acid battery with high specific-energy 总被引:1,自引:0,他引:1
S. K. Martha B. Hariprakash S. A. Gaffoor D. C. Trivedi A. K. Shukla 《Journal of Chemical Sciences》2006,118(1):93-98
Lightweight grids for lead-acid battery grids have been prepared from acrylonitrile butadiene styrene (ABS) copolymer followed
by coating with lead. Subsequently, the grids have been electrochemically coated with a conductive and corrosion-resistant
layer of polyaniline. These grids are about 75% lighter than those employed in conventional lead-acid batteries. Commercial-grade
6V/3.5Ah (C20-rate) lead-acid batteries have been assembled and characterized employing positive and negative plates constituting these
grids. The specific energy of such a lead-acid battery is about 50 Wh/kg. The batteries can withstand fast charge-discharge
duty cycles.
Dedicated to Prof J Gopalakrishnan on his 62nd birthday. 相似文献
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59.
WANG Yongtao GUO Xianwei LIN Zhiyuan YANG Yubo WU Lingqiao LIU Huan YU Haijun 《高等学校化学研究》2020,36(3):439-446
The sphene-type solid electrolyte with high ionic conductivity has been designed for solid-state lithium metal battery. However, the practical applications of solid electrolytes are still suffered by the low relative density and long sintering time of tens of hours with large energy consumption. Here, we introduced the spark plasma sintering technology for fabricating the sphene-type Li1.125Ta0.875Zr0.125SiO5 solid electrolyte. The dense electrolyte pellet with high relative density of ca. 97.4% and ionic conductivity of ca. 1.44×10-5 S/cm at 30℃ can be obtained by spark plasma sintering process within the extremely short time of only ca. 0.1 h. Also the solid electrolyte provides stable electrochemical window of ca. 6.0 V(vs. Li+/Li) and high electrochemical interface stability toward Li metal anode. With the enhanced interfacial contacts between electrodes and electrolyte pellet by the in-situ formed polymer electrolyte, the solid-state lithium metal battery with LiFePO4 cathode can deliver the initial discharge capacity of ca. 154 mA·h/g at 0.1 C and the reversible capacity of ca. 132 mA·h/g after 70 cycles with high Coulombic efficiency of 99.5% at 55℃. Therefore, this study demonstrates a rapid and energy efficient sintering strategy for fabricating the solid electrolyte with dense structure and high ionic conductivity that can be practically applied in solid-state lithium metal batteries with high energy densities and safeties. 相似文献
60.
The kinetics of the nucleation and growth of PbO2 during the potentiostatic oxidation of PbSO4 in a lead anodic film was studied using linear sweep voltammetry, potential-step and ac impedance tracing methods. The film investigated is the partially reduced anodic PbO2 film formed by polarizing a lead electrode in 4.5 M H2SO4 solution first at 1.3 V vs. Hg|HgSO4 for 20 min and then at 0.9 V for 5 min. The nucleation and growth process begins some time after the potential step and is completed within 60 s. The pre- and post-nucleation and growth processes correspond to the growth of the anodic film formed by the oxidation of the lead substrate. The mathematical equations representing the current-time and capacitance-time transients are derived taking the background oxidation current into account. The experimental results are well fitted by these equations. The process obeys the laws of two-dimensional instantaneous nucleation and growth. 相似文献