The layered lithium manganese oxides are promising positive electrode materials for the next generation of lithium-ion batteries.
层状氧化锰锂逐渐成为新一代锂离子电池正极材料的研究热点。
The decomposition kinetics of lithium manganese oxides precursor in air atmosphere was investigated at different heating rates with differential temperature analyses.
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 vibrational spectroscopic techniques (i. e. IR, Raman) were employed to investigate why titanium can obviously improve the electrochemical performance of spinel lithium manganese oxides.
还用红外和拉曼光谱技术研究了钛对尖晶石锂锰氧化物的电化学性能的改善作用。
For the cathode, Planar uses lithium manganese dioxide; for the anode, doped tin oxides and lithium alloys.
普拉纳在负极上使用锂锰二氧化物,在正极上则涂上二氧化锡和锂合金。
Porous manganese oxides have many important potential applications in rechargeable lithium battery, advanced separation technology, chemical sensing, catalysis and environmental protection.
多孔锰氧化物材料在可充锂电池、高级分离技术、化学传感、催化以及环保等领域有潜在的重要应用价值。
Porous manganese oxides have many important potential applications in rechargeable lithium battery, advanced separation technology, chemical sensing, catalysis and environmental protection.
多孔锰氧化物材料在可充锂电池、高级分离技术、化学传感、催化以及环保等领域有潜在的重要应用价值。
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