| 1. | The rate constant of the surface electrochemical reaction was determined as
,表面电极反应速率常数 |
| 2. | The crystal structure and elec trode reaction of n - 2 - hydroxy - 5 - methylphenyl phenyl methylene - o - phenylenediamine
亚甲基邻苯二胺的晶体结构及电极反应 |
| 3. | The fuel cell is an electrochemical device that converts energy into electricity and heat without combustion
它是一种将化学能通过电极反应直接转化为电能的电化学装置。 |
| 4. | The enzyme electrode has a fast response ( 5 ~ 20s ) for histamine and the reaction is controlled by the enzyme kinetics
该电极对组胺有快速的生物电化学响应(响应时间为5 205 ) ,电极反应受酶动力学控制。 |
| 5. | With the increasing of pot content in dmct / pot composite which uses copper as substrate the conductivity of cathode is promoted but its reversibility goes to bad
在以铜为基体的复合电极中, pot含量的增加使电极的导电能力提高,但电极反应的可逆性能下降。 |
| 6. | It was found that the electrode process was scarcely affected by the pee modification ; but the electrochemical luminescence of luminol was greatly enhanced
结果表明;聚乙烯亚胺修饰层对电极反应的影响相对较小;而对鲁米诺分子的电化学发光具有极大的增强效应。 |
| 7. | The first successful electrochemical biosensor is the amperometric glucose biosensor using the clark - type oxygen electrode with direct electron transfer from the glucose oxidase to the surface of the electrode
电流型酶传感器是生物传感器领域中研究最多的一种类型,其电极反应包括酶化学反应和异相电子转移反应。 |
| 8. | In this paper , the deconvolution ( and high - order - deconvolution ) electroanalysis theory totally controlled by electrode reaction rates was modified and its properties of polarographic wave was also discussed in detail
摘要本文提出了完全受电极反应速率控制的去卷积(包括高阶去卷积)电化学分析理论,并对波形的性质进行了较详细的讨论。 |
| 9. | Carbon nanotubes ( cnt ) are new promising materials of catalyst supports for pemfcs . previous studies reveal that cnts supported catalysts show enhanced catalytic activity towards oxygen reduction reaction ( orr ) and methanol oxidation
碳纳米管( cnt )作为载体的电催化剂在氧还原和甲醇氧化等pemfc电极反应方面表现出良好的催化活性。 |
| 10. | Combined with development of the products , the research emphasis in this paper is focus on the studies of the high - rate discharging performance at different temperature . 1 . in the research of the discharge performance with high rate , the results of different effects including thickness of positive electrode , materials of hydrogen storage alloy , concentration of the electrolyte and separators
论文在实现研究目标的过程中,结合产品的研制,重点对电池的高倍率放电性能和温度性能进行了研究:一、在提高电池大电流放电性能的研究中,比较了不同正极板厚度、不同贮氢合金材料、不同浓度电解液及不同材料隔膜等对电池大电流放电平台的影响,并从电极反应动力学和多孔电极的角度分析了极板厚度对电池高倍率放电的影响。 |
