| 1. | Synthesis of licoo2 by solid state coordination method
2的固相配位化学合成 |
| 2. | Preparing techniques and development of licoo2 cathode materials
2正极材料的制备技术及其进展 |
| 3. | Limn2o4 spinel was coated with licoo2 using sol - gel process
由斜方结构转变为a lifeo ;结构。 |
| 4. | The licoo2 coating is deposited by sol - gel process , which enhanced the uniformity of the surface coverage
阳离子( co卜和zn入)掺杂在高温下将使limno 。 |
| 5. | Microstructures of licoo2 such as crystallite size , particle size and aggregate have some succession with those of precursor co3o4
浙江大学硕士学位论文采用以非水介质作为分散剂的两步温度焙烧的lic 。 |
| 6. | Modified linio2 which has the same layered structure with licoo2 is regarded as the promising cathode material for lithium - ion battery
改性linio2具有与licoo2相同的层状结构,被认为是极具潜力的锂离子电池正极材料。 |
| 7. | Lithium metal oxides ( licoo2 , linio2 , limn2o4 , etc ) used extensively at present ca n ' t increase battery ' s specific energy more while organic sulfides can do
最近的研究表明有机硫化合物作正极活性物质时,电池的比能量可得到进一步提高。 |
| 8. | Nowadays , the cathode material used in the commercial lib is licoo2 . but cobalt is expensive and makes serious environmental pollution and the resource of it is limited
目前商品化的锂离子电池多采用licoo _ 2作为正极材料,但钴价格昂贵,对环境污染较大且资源有限。 |
| 9. | As the increasing of calcinating temperature , crystallite size of co3o4 is reduced , while that of licoo2 increased and furthermore , there is less defects in the crystal structure
Licoo _ 2样品的晶粒大小、颗粒大小和团聚情况等微结构因素与先驱物co _ 3o _ 4存在一定的继承性。 |
| 10. | Now the commercialized lithium - ion battery mostly uses licoo2 as cathode material , but cobalt suffers the disadvantage of limited resource , high price and heavy pollution to environment
目前商品化的锂离子电池多数采用licoo _ 2作为正极材料,但资源有限,价格昂贵,且对环境污染较大。 |
