其制备方法包括:锰酸锂前驱体制备,钴酸锂包覆。
The process for preparation comprises preparing lithium manganese oxide precursors and coating lithium cobalt oxide.
从比能量、环境污染和价格方面看,锰酸锂化合物最具前景。
From the point-of-view of specific energy, environmental pollution (toxicity) and cost, lithium manganese oxide will be the most promising compound.
展望了反尖晶石离子掺杂在锂离子电池锰酸锂正极材料中的发展前景。
The development foreground of inverse spinel ions doping in positive electrode materials of lithium manganese oxide was viewed.
采用不同升温速率的差热分析研究空气气氛中锰酸锂前驱体分解的反应。
The decomposition kinetics of lithium manganese oxides precursor in air atmosphere was investigated at different heating rates with differential temperature analyses.
对尖晶石锰酸锂进行了二元阳离子组合掺杂,进一步改善了材料的电化学性能。
The binary-cation doping has much better effects on improving the electrochemical performance. The modified spinel cathode with two cations and one anion multiplex doped were synthesized.
尖晶石型锰酸锂具有无毒、能量密度高等特点,是下一代锂离子电池最有前途的正极材料之一。
The spinel manganic acid lithium is promising to be cathodes for Li-ion battery, due to its relatively high energy density and low toxicity.
锂电池的正极一般是用磷酸锂铁制作,而乌鸦公司却使用能量密度更好地镍钴锰酸锂来制作锂电池正极。
The positive electrodes are often made from lithium iron phosphate. Corvus, however, USES lithium nickel manganese cobalt (NMC) because it provides a greater energy density.
正极材料在锂离子电池成本中约占40%以上,锰酸锂被认为是目前最具发展前景的锂离子电池的正极材料。
It is a common knowledge that the anode material accounts for over 40% of the total cost of lithium battery and lithium manganate is the most promising anode material.
正极材料在锂离子电池成本中约占40%以上,锰酸锂被认为是目前最具发展前景的锂离子电池的正极材料。
It is a common knowledge that the anode material accounts for over 40% of the total cost of lithium battery and lithium manganate is the most promising anode material.
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