电解液

Fe2O3在碱锰电池电解液中的溶出及危害

Dissolution and harm of Fe_2O_3 in alkaline electrolyte battery

有机电解液中钛基材表面TiO2纳米管阵列生长机制的研究

Growth Mechanism of TiO_2 Nanotube Arrays on Titanium Substrate in Organic Electrolyte

电解液中Cu杂质对负极镉压的影响

Influence of copper impurity content on cadmium voltage of the negative electrode

可充镁电池有机电解液Mg（SnPh3）2的研究

Research on Mg ( SnPh_3 ) _2 Electrolyte Solution of Rechargeable Magnesium Battery

金电解液中Pt，Pd的火焰原子吸收光谱法测定

Determination of Platinum and Palladium in Gold Electrolyte with Flame Atomic Absorption Spectrometry

采用pH微探针原位研究电极/电解液界面pH值的变化；

A pH microprobe technique was developed to measure in situ the pH value on theelectrode / solution interface .

DSC光电转化效率受阳极材料，染料，电解液，对电极以及封装工艺等诸多因素的影响。

The photovoltaic efficiency of DSC is affected by anode , electrolyte and cathode .

最后，讨论了在硫酸电解液中TiO2多孔膜的形成机制。

Furthermore , the forming mechanism of TiO2 porous films in sulphuric acid is discussed .

研究比较了含和不含碳酸丙稀酯（PC）两种电解液的063048型锂离子蓄电池的循环性能、高温和低温放电性能。

The cyclic performance and high-low temperature discharge performance of 063048 Li-ion batteries using electrolyte with and without PC were studied .

分析了电解液-敏感膜界面的选择性吸附过程，利用电化学理论得到界面势与液体pH值的定量关系，结果与实验一致。

The selective binding process was analysed and the quantitative result was obtained utilizing the theory of electrochemistry , according to experimental results .

在目前实验条件下，电解液中的磷酸盐可选择磷酸类铵盐，如磷酸二氢铵（（NH4）H2PO4）等；

Under optimal processing condition , phosphatic ammonia salt , for example , ( NH4 ) H2PO4 etc.

所用电解体系为传统的三电极体系，电解液为离子液体[BMIM]BF4，通过线性伏安扫描法、循环伏安法及直流恒电位极化法来研究BF4~-等在阴极表面的电化学还原行为。

A conventional three-electrode cell was used with Ionic liquid [ BMIM ] BF_4 as electrolyte .

结果表明：对于同一电解液体系，TiO2纳米管阵列的形成需要特定的氧化电压、时间参数范围。

The results indicate that TiO2 nanotube arrays can be regularly formed at the specific anodic voltage and anodic time .

二者对光生电子的捕获效率与电解液pH值及电极电位（U）有关。

The electron-capturing efficiencies of these two surface states are related to the pH value of the electrolyte and the electrode potential ( U ) .

综合研究了电解液浓度、电压、氧化时间对膜厚的影响，利用扫描电镜、X射线衍射研究了陶瓷膜的组织结构。

The effects of electrolyte concentration , voltage and oxide time were studied . Microstructure of ceramic coatings was investigated by X-ray diffraction and scanning electron microscope .

用FAAS法测定铅电解液中的铜和银

Determination of Cu and Ag in Pb-Electrolyte by FAAS

结果发现：微弧氧化方法适合于Ti在甘油磷酸钠和醋酸钙电解液中形成富含有Ca和P的氧化膜。

It was found that the MAO method is suitable for Ti to form oxide film containing Ca and P in the electrolyte of β - GP and CA.

丁磺酸内酯（BS）作锂离子电池电解液添加剂

On the use of butyl sultone ( BS ) as an additive for lithium ion battery

结果表明：采用脉冲电源，选择浓度合适的NaCl电解液和恰当的电参数加工能获得较好的表面质量。

The results illustrated that by optimizing proper concentration of NaCl electrolyte and electric parameters could obtain relatively good surface quality .

通过阴极极化曲线的测定研究了硫酸盐电解液喷射速度u（流速）对电流密度jc和阴极过电位ηc的影响。

The relationship between jet flow rate , current density and cathodic overpotential was studied by measuring cathodic polarization curve in simple sulfate system .

结合对铬酸钾的光催化还原效率，对这种体系制备的TiO2膜的工艺参数（电解液浓度、电流密度、电压）对膜层结构、表面形貌以及铬酸钾的还原率进行了研究。

Process parameters ( electrolyte concentration , current density and voltage ) were optimized according to the photocatalytic reduction efficiency of chromate potassium .

电解液－Si3N4绝缘体界面表面基／复合中心模型的研究

A Study of Surface-Site / Recombination Center Model for Electrolyte-Insulator ( Si_3N_4 ) Interface

结果表明，在As（V）存在下，控制电流密度电积，可以实现铜电解液中铜与砷的分离。

The results show that the copper and arsenic in copper electrolyte contaning As ( V ) can be separated by multiple stage electrowinning of current density adjustment .

用循环伏安法研究了胶体电解液对PbO2和Pb电极放电性能的影响。

Influence of colloid electrolyte on charge and discharge characteristic of Pb and PbO_2 electrode has been studied by cyclic Voltammetry .

超级电容器材料MnO2在有机电解液中的电化学性能

Electrochemical performance of supercapacitor material MnO_2 in organic electrolyte

VRLA蓄电池电解液的保持体

VRLA Battery Electrolyte Retaining Material

探讨了复合电极中PTFE含量、阴极电流密度、电解液温度、电解电量对频那醇产率的影响。

Effects of PTFE content in electrode , current density , temperature of electrolyte and electric quantity on pinacol yield was discussed .

γ-丁内酯基电解液中Li2CO3添加剂的电化学行为

The electrochemical behaviors of Li_2CO_3 additive to γ - butyrolactone based electrolyte for Li-ion batteries

此外新的SPE体系表现出其他许多独特性质，正好满足高温长寿命型铝电解电容器对电解液的要求。

Additionally the unique properties of the new systems meet exactly with the requirements of long life aluminum electrolytic capacitors .

活性炭电极材料前处理对KOH电解液体系双电层电容器电化学性能的影响

Influence of activated carbon pretreatment on the electrochemical performance of the electric double layer capacitors in KOH aqueous electrolyte