| 1. | Researches on the electrode materials for supercapacitor
超级电容器电极材料研究 |
| 2. | Research review of composite electrode materials for supercapacitor
超级电容器复合电极材料的研究进展 |
| 3. | Preparation and its supercapacitor performance of nickel oxide doped with copper
的制备及其超级电容器性能 |
| 4. | The research work of supercapacitor mainly focuses on the electrode material
超级电容器的研究重点主要集中在电极材料的研究上。 |
| 5. | Solid reaction preparation and electrochemical characteristics of nano - structured co3o4 material for supercapacitor
4的固相法制备及电化学性能 |
| 6. | Electrochemical supercapacitor is a new energy storage component between batteries and electrostatic capacitors , which has higher power density than that of batteries and higher energy density than that of electrostatic capacitor
电化学超级电容器是一种介于电池和静电电容之间的新型储能元件,具有功率密度比电池高,能量密度比静电电容高的优点。 |
| 7. | A composite electrode material comprising carbon nanotube and transition metal oxide may meet both the powerand the energy requirements . the properties of supercapacitor utilizing carbon nanotube as electrode material are studied
通过充分利用其较大的比表面积和适宜的孔径,可望得到大容量、高功率的超级电容器,与过渡金属氧化物复合更能提高其综合性能。 |
| 8. | The supercapacitor is a new type of electrochemical energy storage devices between rechargeable batteries and traditional electrostatic capacitors , and it has high power density , high charge / discharge efficiency and long cycle life
超大容量电赝电容器是一种性能介于电池和传统静电电容器之间的新概念高功率储能器件,具有功率密度大、充放电效率高、循环寿命长等特点。 |
| 9. | The properties and manufacturing methods of carbon nanotubes are briefly introduced , and the prospect of its potential application in several respects for automobiles are analyzed , including hydrogen storage material , supercapacitor , electrode material of lithium ion batteries , et al
本文简单地介绍了碳纳米管的性能和制备方法,分析了碳纳米管在汽车中潜在的若干方面的应用前景,包括储氢材料、超级电容器、锂离子电池电极材料等。 |
| 10. | Raised the idea of constructing hybrid capacitor with a battery based positive electrode and a capacitor based negative electrode , experiment proved that a hybrid supercapacitor with a manganese dioxide based positive electrode and an activated carbon based negative electrode showed very good performance , double electrode specific capacitance could be enhanced to 95 . 7f / g , that is 2 ~ 3 times that of the carbon based supercapacitors . furthermore , the maximal voltage of a single cell could be expanded to 1 . 5v , as a result , the energy density could be ten times higher than that of a carbon based supercapacitors
本论文中我们提出了将电池哈尔滨工程大学硕士学位论文的正极与电容器的负极结合成混合超级电容器的构想,并成功实现了二氧化锰正极和活性炭负极的组合,构成的锰碳混合超级电容器双电极比容量可达到95 . 7f / g ,比活性炭超级电容器提高了2一3倍,单体工作电压可以高达1 . 5v ,从而使能量密度提高到碳基超级电容器的十倍。 |
