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- The EDLC based on EMIBF_4/ P(VDF-HFP) showed excellent electrochemical performance. 基于EMIBF4/P(VDF-HFP)的双电层电容器显示了优良的电化学性能。
- The material synthesized with the dextrose and ferrous oxalate shows the best electrochemical performance. 以葡萄糖为碳源、草酸亚铁为铁源合成的材料形貌规则,分散性好。
- The electrochemical performance of a kind of VRLA battery is presented in this paper. 对一种VRLA蓄电池的部分电性能进行了初步探讨。
- Electrochemical performance of different catalysts was evaluated by cyclic voltammograms and single cell test. 采用循环伏安和单电池测试等方法对催化剂的电化学性能进行了分析和研究。
- The phase structure,hydrogen storage performance and electrochemical performance of the alloys were studied by XRD and three-electrode test system. 采用X射线衍射和三电极测试体系研究了合金的相结构、贮氢性能和电化学性能。
- The electrochemical performance of High Silicon-Iron Anodes Exerted by Square Wave Pulsed Currents (SWPCs) was studied by electrochemical. 摘要采用电化学方法和阳极消耗率评价法研究了高硅铸铁阳极在方波脉冲电流作用下的电化学性能。
- Its electrochemical performance was also (studied) via cyclic voltammetry and constant current charge/discharge experiments. 测试了样品的热性能和循环伏安、恒电流充放电性能。
- Electrochemical performance of zinc-plated foam nickel electrode in alkaline solution (KOH) was stu-died by grazing ellipsometry and cyclic voltammetry. 应用掠射式椭圆偏振技术 (掠射椭偏术 )和循环伏安法对以泡沫镍为基体的表面镀锌电极在碱性电解质 (KOH)中的电化学行为进行了研究。
- When electrolytes differ from solvent component, the best electrochemical performance of LiFePO4 was attained in EC/DMC, following with EC/DEC/PC, while the worst in EC/DEC. 而在含LiPF5的不同电解液中,LiFePO4在EC/DMC中的电化学性能最优,在EC/DEC/PC中其次,在EC/DEC中最差。
- The industrial standards for the composition, electrochemical performance and related testings of the sacrificial anodes have not been established in this country. 摘要阴极防蚀用牺牲阳极材料的成份、电化学性能及其测试方法,目前国内标准规范尚未颁布;
- Some of them have excellent electrochemical performance for applications in electrochemistry and electrochemical devices,such as batteries,and show a bright future of application. 一些离子液体及相关电解质应用于电池等电化学装置,具有良好的电化学性能,显示了广阔的应用前景。
- The paper reports the best condition of making Ni-S active cathode by chemisorbing S technique and the electrochemical performance of Ni-S active cathode. 研究了用化学吸附硫法制备节能镍硫活性阴极的最佳条件及该电极的电性能。
- The charge and discharge cycling of the cells showed that the electrochemical performance of Li4Ti5O12 using TiO2-rutile as starting material was comparable to that synthesized by TiO2-anatase. 采用XRD及化学分析方法对合成粉体进行结构表征,并采用充放电测试手段检测其电化学性能。 电池充放电结果表明:以金红石型TiO2为原料和以锐钛矿型TiO2为原料合成的Li4Ti5O12比容量和循环稳定性没有明显区别。
- The study on anadium phosphate compounds has become a hotspot research in recent years for their friendly environment,low cost,stable structure,high safety and good electrochemical performance. 磷酸钒盐具有环保、成本低廉、结构稳定、安全性能优秀、电化学性能较好等特点,成为了近年来研究的热点。
- The effects of annealing temperature on electrochemical performances of the alloy were investigated. 研究了退火温度对合金的电化学性能的影响。
- Their structures and morphologies, electrochemical performance of the active material are investigated detailedly by powder XRD, SEM techniques, laser granularity analyzer, ICP, electrochemical workstation, Land BT1-10 test system. 采用粉末X-射线衍射分析(XRD)、扫描电镜分析(SEM)、激光粒度分析仪、电感耦合等离子体原子发射光谱分析(ICP)、循环伏安测试分析以及充放电测试分析等对制备材料的结构和电化学性能进行了详细的考察。
- Among whole research, theproducts are proved by FT-IR and CHN element analysis instrument and NMR. The electrochemical performance of EDT is researched with Cyclic Voltammetry, the result is that EDT product has very good electrochemical activation. 在整个研究中,对中间体及最终产品用傅立叶红外光谱仪和CHN元素分析仪及核磁共振仪进行了检测,证实了中间产品及目的产品的正确性,同时用电化学综合仪采用循环伏安法对EDT的电化学性质进行了研究,实验结果证明,采用我们的方法合成的EDT,有很好的电化学活性。
- The results show that the sintering process is necessary during the preparation of spinel lithium manganese oxide, because it can improve its crystal degree and electrochemical performance. 结果表明:烧结使尖晶石型锂锰氧化物的结晶更加完整,有利于材料电化学性能的稳定。
- The results demonstrated that the composite material carbon-doped by dextrose had the most excellent electrochemical performances. 结果表明,以葡萄糖作为碳源的正极材料具有优良的电化学性能。
- Searching electrolyte low temperature co-solvent and investigating the effect of it on low temperature electrochemical performance of lithium ion batteries are the intentions of this research. 本课题的立意在于寻求锂离子电池电解液的低温共溶剂,并考察其对锂离子电池低温电化学性能的影响。