| 1. | Research progress , composing and working principle of lithium - ion secondary battery were described in this paper
摘要简述了锂离子二次电池的发展、组成及工作原理。 |
| 2. | Keywords : lithium - ion secondary batteries , lithium cobalt oxide , lithium nickel oxide , lithium manganese oxide , and nanotechnology
关键词:锂离子二次电池、锂钴氧化物、锂镍氧化物、锂锰氧化物、奈米科技。 |
| 3. | The aqueous lithium - ion secondary battery could be possible in theory if cathode and anode materials that are all stable in aqueous solution can be found
理论分析表明只要选择合适的电极材料,水溶液锂离子蓄电池完全可行。 |
| 4. | Compared to liquid electrolyte , polymer solid electrolyte has greater develop protential as electrolyte material for lithium - ion secondary battery
作为新型锂离子电池的电解质材料,聚合物电解质的性能较液体电解质有更大的发展潜力。 |
| 5. | The sort of polymer solid electrolyte materials for lithium - ion secondary battery , their conduction mechanism , performance and evolution were especially introduced
重点介绍了锂离子二次电池中聚合物电解质分类、导电原理、性能以及发展方向。 |
| 6. | In this paper , the low - temperature synthesis method - sol - gel mehtod was used to improve the capacity fading of the cathode with cycling for lithium - ion secondary battery
本文针对锂锰氧化物循环过程中容量衰减的问题,采用了低温合成方法即溶胶凝胶法。 |
| 7. | Lithium - ion secondary battery duo to high specific energy and good cycle performance has attracted considerable attention , but its disadvantages of high cost and low safety can not been ignored by using organic electrolyte
锂离子电池以比能量高、循环性能好的优点得到了广泛关注,但因采用有机电解液,电池成本高,存在安全性差等不足。 |
