| 1. | Preparation of limn2o4 as a cathode in rechargeable lithium cells
4电极材料的制备 |
| 2. | Research status of spinel limn2o4 battery material
锂离子蓄电池锂锰氧化物正极活性材料 |
| 3. | Study of electrochemical behavior of spinel limn2o4 cathode material
试论宋明理学家的圣贤境界 |
| 4. | Limn2o4 spinel was coated with licoo2 using sol - gel process
由斜方结构转变为a lifeo ;结构。 |
| 5. | Study on limn2o4 synthesized by hot - pressing method and on lithium getting off the products
4的热压合成及锂脱嵌研究 |
| 6. | Preliminary study of structural stability of cathode material limn2o4 for lithium batteries
4锂离子电池正极材料结构稳定性的初步研究 |
| 7. | Thus , the s - co co - doping limn2o4 spinel can be operated in a wide voltage range 2 . 4 - 4 . 3v
O 。优良,但由于合成困难限制了它的发展。本文在limno 。 |
| 8. | The structure of material was tested by tg - dta , xrd , sem and tem . the capability was tested by charge - discharge cycle
这样提高了limn2o4作为电极材料时的结构稳定性,使得电极材料的循环性能得到改善。 |
| 9. | This paper mainly studied the factors that influence the preparation of limn2o4 film on stainless steel by chemical solution deposition method
本文主要研究化学溶液沉积法在不锈钢基体上制备limn2o4薄膜的工艺和影响因素。 |
| 10. | Recently , a new layered limno2 which has higher capacity than spinel limn2o4 , has become the hot topic of cathode of lithium - ion batteries
最近,具有比尖晶石型的锂锰氧化物更高理论容量的层状结构的limno2 ,成为当前的研究热点。 |
