电极反应

  • 网络Electrode reaction;reactions on the electrode;elec-trode reaction
电极反应电极反应
  1. 维生素B2电极反应动力学研究

    Study of Electrode Reaction Kinetics for Riboflavin

  2. H20在电极反应式中的应用

    Application of H_2O in the Electrode Reaction Equation

  3. 袖珍计算机在电流阶跃实验中的应用&电极反应电子数N的计算

    Application of Pocket Computer in Calculation of the Number of Electrons for Electrode Reaction

  4. 在本文实验范围内,U(Ⅵ)电还原过程由电极反应控制。

    The process of U (ⅵ) electro-reduction is mainly electrode reaction controlled .

  5. 定义了流体力学因素对电极反应的作用系数(Ψa和Ψc),并进行了计算与分析。

    Effect coefficients ( Ψ a and Ψ c ) of hydrodynamic factor on electrode reaction were defined and then analyzed .

  6. 用循环伏安法考察了聚(N-甲基)苯胺电极反应可逆性;

    The reversibility of the electrode reaction of poly ( N methyl ) aniline was inspected by cyclic voltammetry .

  7. SiCw/TZP陶瓷复合材料电泳沉积电极反应动力学研究

    Kinetics of electrode reaction for electrophoretic deposition ofsic_w / tzp ceramic composites

  8. 当合金中Mg含量较低时(x≤0.5),合金电极反应速度控制步骤为氢在合金体相中的扩散;

    When the Mg content ( x ) is lower than 0.5 , the rate-determining step of the electrode reaction is the diffusion of hydrogen in bulk .

  9. 恒电位电解中耗电量Q的测定及电极反应电子数n的测定;

    ( 3 ) Determination of the electric charge , Q , which has been consumed and the number of electrons in electrode reaction with controlled - potential method .

  10. 通过实验电池的循环伏安特性和交流阻抗谱测量,对Li/LiMn2O4电池体系的电极反应动力学过程进行了初步研究。

    Preliminary studies on the kinetic process of electrode reaction in full Li / LiMn2O4 battery system were also conducted by CV and EIS .

  11. 此外,还借助Matlab软件的三次多项式插值功能对影响三维三相电极反应器处理效果的因素进行了响应曲面分析。

    The method of interpolation and curve fitting of Matlab was used to analyze the effects of different factors on the COD removal by the three-phase three-dimensional electrode reactor .

  12. 实验表明,Pt纳米化后,电极反应过电位降低,动力学速率相应提高,从而使电化学性能得到改善。

    The results showed that the electrochemical properties on nano Pt / C were improved due to the reduction of the overpotential and the increase in the kinetic rate .

  13. 采用三相三维电极反应器对酸性橙7(AcidOrange7,AO7)模拟废水进行电解处理实验研究。

    The electrolytic treatment of simulative wastewater containing Acid Orange 7 ( AO7 ) was investigated using a three-phase three-dimensional electrode reactor .

  14. 研究发现了电极反应的中间产物的吸附能力及其对电极反应电荷转移的阻抗值随着Al、Sn含量的增加而减小。

    The study found that the electrode reaction among products and the adsorption ability of electrode reaction charge transfer impedance values with the increase of the content of Al 、 Sn decreases .

  15. 研究了用伪极谱法测定镉在氟化物体系中与氟形成配合物的积累稳定常数.结果表明:Cd()在氟化物体系中的伪极谱行为符合可逆电极反应伪极谱理论。

    The behavior of the pseudo polarogram of Cd 2 + in NaF system has been studied , which showed that it agreed with the theory of the pseudo polarogram of a reversible redox reaction .

  16. 罗丹明6G极谱行为研究和分析应用&Ⅰ.罗丹明6G极谱行为和电极反应机理

    Investigation on the Polarographic Behaviour of Rhodamine 6G and Its Analytical Application I.The polarographic Behaviour of Rhodamine 6G and the Mechanism of Electrode Reaction

  17. 等效电路中需要包含(Ca[RaYw])这一复合元件,而且需要采用恒相位元件Q来表征电双层结构,因而该电极反应体系涉及吸附历程和浓差极化,并存在弥散效应。

    Owing to the existences of adsorptive behavior and the impacts of concentration polarization and dispersion , the equivalent circuits include both multiple elements ( Ca [ RaYw ] ) and constant phase element Q describing the structure of double-layer cell .

  18. 结果表明,电解质溶液中的OH-和H2O参与了电极反应过程,在浓度高的KOH溶液中,K2FeO4的电极过程表现为电化学控制步骤;电化学控制药物释放

    The results show that OH ~ - and H_2O may participate in the discharge process . Electrochemically Controlled Release of Drugs From Chemically Modified Electrodes

  19. 燃料电池电动汽车(FCEV,FuelCellElectricVehicle)以燃料电池作为动力源,通过电极反应将燃料的化学能转变为电能,由电能驱动电机使车辆运行。

    The fuel cell electric vehicle ( FCEV , Fuel Cell Electric Vehicle ) takes the power supply by the fuel cell , transforms the fuel chemical energy into the electrical energy through the electrode reaction , and causes the vehicles movement by the electrical energy .

  20. 在电极反应式配平中,如电极反应左右两边氧原子个数不相等时,可用H2O来平衡。

    During the equalization of electrode reaction equation , if the number of oxygen atom at the left and right of the electrode reaction equation is unequal , H 2O can be used to equalize it .

  21. 用多种电化学方法研究了极谱波的性质及电极反应机理,证明-0.46V处的极谱波为络合物吸附波,峰电流由中心离子Pb(Ⅱ)还原产生。

    Based on the results of the electrochemical study , the polarographic wave at-0.46 V was proved to be an adsorptive wave of the lead (ⅱ) - HPM α FP complex , and the peak current was produced by the reduction of Pb (ⅱ) - ion .

  22. 根据这个机理,作者进一步对有关电极反应的电极电位进行了计算和分析,预测并经实验验证了多种可以溶解HgS的普通化学试剂。

    After calculating the standard elec - trode potentials of some electrode reactions concerned , many common chemical reagents capable of dissolving mercuric sulfide were predicted and experimentally verified .

  23. 同时,发现稀土元素物质La掺杂可以明显改善电极反应的充放电循环可逆性,并有效抑制镍电极上的析氧反应和降低电极反应的电化学极化和欧姆阻抗,提高其放电电压。

    Furthermore , the cyclic reversibility of the electrode reaction improves after doping La and the rare earth La has good effect in inhibiting the oxygen evolution reaction of sample electrode , reducing the electrode reaction of the electrochemical polarization and ohmic resistance , and increasing the discharge voltage .

  24. 结果表明,在低浓度的非质子溶剂中邻甲苯胺正离子主要发生尾-尾耦合,其电极反应机理为包含随后转化步骤的反应过程,即ECE历程。

    Experimental results indicate that low parent concentration and nonaqueous solvents are in favor of substituted benzidine produced by tail-tail coupling of cation radicals . The electrode process is considered to be followed by ECE mechanism .

  25. MH-Ni电池为固溶体反应,锂离子电池是典型的嵌入型电极反应,锂聚合物电池正极为嵌入型反应,负极为锂的溶解-沉积反应。

    Ni-MH battery was solid solution reaction . Li-ion battery has the typical intercalation electrode reaction . And the positive electrode and negative electrode of lithium polymer battery were intercalation reaction and dissolution-aggradation reaction respectively .

  26. 目的研究美洛昔康(meloxicam,简称MLX)的电化学行为和电极反应机理,拟定了测定MLX的吸附伏安法。

    AIM To study the electrochemical behavior and reduction mechanism of meloxicam ( MLX ) in acetate buffer solution . A new method for the determination of MLX was established by adsorptive stripping voltammetry .

  27. 由此计算出标准氢电极反应在298.15K的绝对熵变为94.1J·mol-1·K-1,与文献中的标准氢电极反应在298.15K的绝对熵值相近,证明了本实验方法及所推导公式的合理性。

    The absolute entropy change of the standard hydrogen electrode reaction is calculated to be 94.1 J · mol-1 · K-1 at 298.15K that is close to the one in the literature . Thus present study is proven to be reasonable .

  28. 电极反应过程利用多种电化学技术进行了详细研究,求得了对应的动力学参数,建立了灵敏、快速的8-AG的检测方法。

    The electrode reaction process had been investigated in detail by lots of electrochemistry techniques , and its dynamics parameters had been obtained . Also , the determined methods for 8-AG , which was sensitive and fast has been performed .

  29. 电化学原子力显微镜(ECAFM)可以在液体环境下工作,能原位观察电极反应过程中的腐蚀界面形貌。

    Electrochemical atomic force microscope ( ECAFM ), which can work in liquid conditions , can in situ study the morphology of corrosion surfaces in electrode reactions . TaN thin film was plated by utilizing ion beam enhanced deposition technique .

  30. 标准氢电极反应绝对熵变的测定

    Determination of the Absolute Entropy Change of the Standard Hydrogen Electrode