氧化钌 meaning in Chinese
ruthenium oxide
Examples
- Technical requirements of superfine ruthenium dioxide hydrate powder
超细水合二氧化钌粉技术条件 - The goals of this work are to produce ruo _ 2 on ta foil and study the effects of some important parameters on the performances of as - produced electrode
本文主要研究了钽基氧化钌超级电容器电极的制备和性能影响因素。 - On the basis of the equivalent circuit diagram the solid - solid and the composite - electrolyte interfaces , contributed their impedance in the relatively high and low frequency regions
第三部分是探讨不同粒径大小氧化钌奈米微粒复合电极在不同电位下之阻抗频谱的变化,进而由等效电路图来解释其涵盖的物理意义。 - Besides , scan rate and cycle period also affect the result ; co - deposition of dualistic oxide is a focus of research , as an element in the same group , ir is selected . deposition rate of composition is decreased by the adding of ir composition , and when the proportion of ir exceeded 50 % , composition procession can be ceased . but cooperation of ir and ru oxide can highly increase the specific capacitance of active material ; annealing treatment under a certain temperature can help to change the hydrate ru composition into mixture state ru oxide , accordingly increase the stabilization of active material
研究表明:电解液的配制过程中,氯化钌浓度、溶液ph值、陈化时间、溶液温度对电镀效果均有影响,其中溶液ph值是最主要的影响因素;在仪器的使用条件探索中,理论结合实验确定了本电镀液体系循环伏安电势窗的理想范围,并发现循环伏安扫描速度和扫描周期对电镀结果也有较大影响;混合氧化物的共沉淀是目前研究热点,在此选用与钌同一族的铱作为共沉淀元素,铱的加入会阻碍氧化物的沉积速度,铱的比例超过50 %会使沉积作用停止,但是二元氧化物的协同作用使沉积的活性物质比容量大大提高;一定温度下退火后处理作用会使水合钌化物转变成混合价态的氧化钌,从而提高活性物质的稳定性。 - The comparison of carbon nanotube and active carbon and graphite nanofibers used as electrode material is also presented . a composite electrode material comprising carbon nanotubes and ruthenium oxide is obtained and the capacitance of supercapacitor reaches 270f / g . the carbon nanotube and the natural manganese oxide compounded for the first time and the initial results were achieved
本文采用纳米碳管作为超级电容器电极材料,得到比电容量为110f g的超级电容器结构单元,讨论了粘结剂、电解液等多种影响因素,并与乙炔黑电极和鱼骨状碳纤维电极进行了对比;制备了纳米碳管与氧化钌复合材料,得到比电容量为270f g的超级电容器结构单元;本文还首次将纳米碳管与大洋锰矿复合用作超级电容器电极材料,取得了初步成果,为天然矿物的开发利用开辟了一个新的发展方向。