电化学反应

细胞色素C电化学反应的静电作用模型

The Electrostatic Interaction Model for Electrochemical Reaction of Cytochrome c

维生素B1对细胞色素C电化学反应的影响

The Promotion Effect of Vitamin B_1 on the Electrochemical Reaction of Cytochrome C

细胞色素C在聚乙烯氧化物修饰的金电极上的直接电化学反应

Direct Electrochemical Reaction of Cytochrome c at the Poly ( Ethylene Oxide ) Film modified Gold Electrodes

采用循环伏安法考察了苯胺在铂电极上不同浓度、pH值和不同扫描速率等条件下的电化学反应特性。

Electrochemical characteristics of aniline on different conditions at platinum anode were investigated by cyclic voltammetry .

叙述了引入F原子或引入含氟端基的方法：电化学反应法、聚合反应法和其它反应法。

Besides , diversity application for electrochemical reaction , polymerization and other reactions are introduced .

而且，三种PAN在中性条件下都拥有良好的电化学反应活性以及充放电稳定性。

Also they exhibit good electrochemical stability and charge / discharge performance in neutral medium .

通过EIS研究发现，拉网铜板栅负极具有更好的电化学反应活性；

The EIS research describes that expanded grid of copper electrode has better electrochemistry activity .

对盐桥支撑双层类脂膜的特性、细胞色素C的电化学反应动力学以及有关影响细胞色素C循环伏安行为的各种因素进行了详细探讨；

The characteristics of salt bridge supported BLMs , the electrochemical reaction mechanism of cytochrome C and the effects of various factors on its cyclic _ voltammetric behavior were investigated in details .

与其它电池系统相比，MHNi电池具有优良的电化学反应机理，高的峰值功率，对环境无害。

Compared with other batteries , Ni-MH batteries had excellent electrochemical react mechanism , high peak power and nonpoisonous to environments .

在DMF和醇介质中，整个催化循环有两种催化可能，都包括有两步电化学反应和三步有机反应，中间经过多个Ni络合物。

The catalytic reaction had two routes possibly in DMF or ethanol medium , it involved two-step electrochemical reactions and three-stage organic reactions .

然而，催化剂的利用率不仅受电极内IR降的影响，还受电化学反应的交换电流密度的影响。

However , the utilization of catalyst surface is not only affected by the IR drop within the electrode but also by the eXChange current density of the targeted reaction .

由于MHNi电池工作机理是基于电化学反应过程，因此这些因素的影响最终会通过电化学反应反映到电池的放电性能上。

All the factors effect discharge performance of battery through electrochemical reaction because the working mechanism of Ni MH battery is based on electrochemical reaction process .

球形纳米Ni（OH）2较片状纳米Ni（OH）2更有利于提高电极容量，降低电化学反应电阻。

The spherical nano-scale Ni ( OH ) 2 compound electrode is propitious to improve electrode capacity and reduce electrochemical reaction resistance than flake nano-scale Ni ( OH ) 2 compound electrode .

金属Ni阳极溶解与钝化表现为电荷传递分步进行、并以失去第一个电子的电化学反应为控制步骤的不可逆电极过程。

Both anodic dissolution and passivation of nickel are irreversible electrode processes in which the charge transfers occur in two consecutive steps and the first electrochemical step is a rate-determining step .

循环伏安和恒电流充放电实验证实掺杂钒可改善LiMnO正极材料电化学反应的可逆性，并提高其比容量；

The results of cyclic voltammetry and constant current charge / discharge experiments show that vanadium doping improves the reversibility of the Li Mn O cathode material and increases its specific capacity .

ECL是一种由电化学反应所产生的发光现象。在电极表面发生电化学反应后，被反应能激发的分子以光辐射的形式去活化时就产生了ECL。

ECL is the luminescence generated by relaxation of exited state molecules that are produced during an electrochemically initiated reaction .

制备BaWO4薄膜适宜的电化学反应工艺参数为：电流密度1mA/cm2，电解液的pH值为13，电化学处理时间为1h。

The optimized parameters for the electrochemical reaction were recommended as current density 1 mA / cm ~ ( 2 ), pH value of the electrolyte 13 , electrochemical treatment duration 1 h.

交流阻抗测试结果表明：Pt/PAni/C与直接碳载Pt电极（Pt/C）相比，电化学反应电阻减小，催化活性增高。

The results of EIS confirm that the Pt / PAni / C electrode is not only higher catalyst activation but also lower charge-transfer resistance than the Pt / C electrode .

在亚甲基蓝的电化学反应中，由于碳纳米管具有很好的电子传递能力同时Pd纳米粒子具有很好的催化活性，可以使电化学DNA生物传感器的灵敏度大大提高。

Due to the ability of carbon nanotubes to promote electron-transfer and the high catalytic activities of palladium nanoparticles for electrochemical reaction of methylene blue , the sensitivity of presented electrochemical DNA biosensors was remarkably improved .

结果表明，PPy膜通过与不锈钢发生电化学反应，使不锈钢钝化，释放出的十二烷基苯磺酸根离子也能抑制不锈钢的腐蚀。

Results show that PPy can inhibit corrosion of stainless steel by passivation and release of dodecylbenzenesulfonate anion . 3 .

简述了表面等离子体共振（SPR）的基本原理，并综述了表面等离子体共振技术在电化学反应过程中的应用。

The principle of surface plasmon resonance ( SPR ) is briefly introduced and its applications for the studies on electrochemical processes are reviewed .

作为一种检测方法，通过电化学反应产生光信号，ECL具有较高的灵敏度。

As a detection method , ECL provides high sensitivity through the generation of an optical signal triggered by an electrochemical reaction .

在电池正常使用的电压范围内，PAA表现为电化学反应惰性，无副反应发生。

Also , it shows stable electrochemical properties in the normal use rang of the battery voltages , and there is no side reaction happen .

应用Fluent软件的PEMFC模块，对三维单流道模型进行了热模拟，其包括了流动、传质、传热、电化学反应、水传递等模型。

The PEMFC module of Fluent , which involves the flow , mass-transfer , heat-transfer , electrochemistry , water-transfer , is used in three-dimension model with single channel to simulate .

但是由于电池工作时内部复杂的电化学反应以及使用过程中表现出的较强的非线性特性，使得SOC难以精确估计，成为电动汽车领域的技术难题之一。

But because of the complex electrochemical reaction inside the battery and nonlinearity of batteries , it is difficult to test accurately , it has become a bottleneck restricting the development of electric vehicles .

在硼酸溶液中，通过循环伏安法测试表明，铜锈的电化学反应存在Cu（II）/Cu（I）和Cu（I）/Cu两个还原过程；

In the boric acid solution , the circulation test of volt-ampere shows that there exist the two Cu ( II ) / Cu ( I ) and Cu ( I ) / Cu reduction processes in the electrochemical reaction ;

Tafel曲线表明，添加剂降低了银电沉积过程的交换电流密度和电化学反应速度常数。

The results of Tafel curves showed the additive decrease the exchange current density values and electrode reaction rate constant .

本文计算并绘制了Ni-S-H2O系的Eh-pH图，讨论了与针镍矿（β-NiS）溶解有关的电化学反应。

The Eh-pH diagrams were calculated and constructed for the system Ni-S-H_2O-The electrochemical reactions related to the dissolution of millerite were discussed on the Eh-pH diagrams .

其中，位于质子交换膜两侧的催化层是PEMFC进行电化学反应的重要场所，主要进行反应物的传输、反应物在电化学活性位的界面反应、质子和电子传导以及反应产物的排出等重要过程。

Especially , the catalyst layer acting as the center for electrochemical reaction in PEMFC facilitates reactant transport , interface reaction in electrochemical active site and conduction of proton and electron .

利用差示脉冲伏安研究了尿酸在碳纤维微电极上的电化学反应，建立了对应的DPV法检测尿酸的分析方法。

The uric acid is investigated by Different Pulse Voltammetry at carbon fiber microelectrode ( CFME ), which is made by us .