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electrochemical windows
相关语句
  电位窗
     The electrochemical windows and electric conductivities of acidic,neutral and basic AlCl_3-BPC ionic liquids are measured.
     测定了酸性、中性和碱性3种A lC l3-BPC离子液体的电位窗和电导率.
短句来源
  “electrochemical windows”译为未确定词的双语例句
     The electrochemical windows of the SPE largely depend on the content of ILs.
     SPE的电化学稳定窗口与离子液体的含量有很大的关系。
短句来源
     Electrolytic Cyclic Voltammetry also testified that the electrochemical windows of water of the modified electrode became more negative, which is also propitious to constrain production of hydrogen.
     通过对极化曲线的对比分析,表明Hg修饰后电极的电化学析 氢电位窗口负移,也有利于抑制析氢副反应的发生。
短句来源
  相似匹配句对
     The electrochemical windows of the SPE largely depend on the content of ILs.
     SPE的电化学稳定窗口与离子液体的含量有很大的关系。
短句来源
     The release of Windows.
     Windows.
短句来源
     Optimizing of Windows
     Windows的优化
短句来源
     Electrochemical Analysis.
     电化学分析
短句来源
     Electrochemical Sensors
     电化学生物传感器
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  electrochemical windows
The electrochemical windows of salts ranged from 3.3 V for [Mor1,8][Br] to 3.6 V for [Mor1,4][Br] and thus did not show any noticeable variation with cations used for salt synthesis.
      
The cyclic voltammogram of [bmim][br] and [bmim][BF4] indicated electrochemical windows in the stability range from 2.7 V of [bmim][[Br] to 4.7 V of [bmim][BF4].
      
The electrochemical windows of BL-EC (equimolar) mixtures in the presence of LiPF6 and LiBF4 are comparable but it is shown that the solvents oxidation rate at high potentials is lower when LiBF4 is used.
      
The length of the functional group attached to the imidazolium cation was shown to be of great influence as larger electrochemical windows, as well as lower electrical conductivities, were obtained with the longer C7O3 and C10 functional groups.
      
Various electrochemical events with low current values were observed, which diminished the electrochemical windows.
      
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The fused salts as solvents for preparing electroplating bath have some important features, that is, their wider temperature range of liquid state and larger "electrochemical window". A series of salt melts having the melting point below room temperature and high enough stability for preventing their decomposition even in a wide interval of electrode potentials have been found. The high—temperature melts not only can be used for electroplating of refractory metals, but also for bringing into a new process...

The fused salts as solvents for preparing electroplating bath have some important features, that is, their wider temperature range of liquid state and larger "electrochemical window". A series of salt melts having the melting point below room temperature and high enough stability for preventing their decomposition even in a wide interval of electrode potentials have been found. The high—temperature melts not only can be used for electroplating of refractory metals, but also for bringing into a new process so—called "metalliding". The present paper gives a statement on the current state of research and the prospects of application dealing with the above technology.

用熔盐作为制备金属电沉积槽液的溶剂具有液态温度范围广和“电化学窗口”大等优异特点。熔点低于室温和在相当广的电位范围内不被分解的非质子型熔盐体系已相继出现,使像铝等不能自水熔液中阴极析出的金属能够实现电沉积。另一方面,熔盐体系的高液态温度不但可以自其中获取无内应力的金属镀层,而且还可靠电解条件的适当调节来实现扩散渗镀的过程。本文介绍上述熔盐体系电沉积技术的研究现状和应用前景。

We have done the research of organic mixed electrolyte to find appropriate electrolytes in the filed of lithium battery. There is little information on this subject in domestic or overseas report especially, on the data of decomposed potential, and most of them are the features of organic electrolytes with single composition. So we should obtain the data through our experiments.Having measured the viscosity, specific conductivity and electrochemical...

We have done the research of organic mixed electrolyte to find appropriate electrolytes in the filed of lithium battery. There is little information on this subject in domestic or overseas report especially, on the data of decomposed potential, and most of them are the features of organic electrolytes with single composition. So we should obtain the data through our experiments.Having measured the viscosity, specific conductivity and electrochemical window of organic electrolytes with different compositions of various solutes and solvents, and analyzed the solubility of Li xCoO 2 in above electrolytes, the comparison of performance for various electrolytes are showed as follows:Organic electrolytes with different solvents and same solutes have different features of the viscosity, specific comductivity and electrochemical window.Organic electrolytes with different solutes and same solvents have different features of the viscosity, specific conductivity and electrochemical window.Different electrolytes have various influences on chage dischage characteristics of Li xCoO 2.

在锂离子蓄电池研究中,为寻找合适的电液,进行了有机混合电液的研究。关于这方面的资料国内外报道很少,尤其分解电位的数据报道更少,我们根据工作的需要开展了这方面工作。通过对各种溶质、溶剂不同配比组成的各种有机混合电液进行粘度、导电率、电化学窗口的测定及LixCoO2在部分电液中溶解分析,并进行了电性能比较,结果表明:相同溶质不同混合溶剂组成的电液,它们的粘度、电导率及电化学窗口不同;不同溶质相同的混合溶剂组成的电液,它们的粘度、电导率及电化学窗口也不同;不同的电液对LixCoO2阴极充放电行为有明显的影响

Application of polymer electrolytes could improve the performance of lithium secondary battery effectively. Good conductivity, high lithium - ion transference number and wide electrochemical window were the requirements for utilization of polymer electrolytes in lithium secondary batteries. On this base the electrochemical performances and application range of different polymer electrolytes were discussed.

采用聚合物电解质能够有效地提高锂二次电池性能。良好电导率、高锂离子迁移数、宽电化学窗口是聚合物电解质应用于锂二次电池中的关键。在此基础上讨论了各类聚合物电解质的电化学性能和应用范围。

 
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