Chapter 1 in this chapter , the principles of photoinduced electron transfer , sensors and molecular switches based on this principles were simply introduced 第一章简要介绍了光诱导电子转移基本原理,以及在此基础上研究的传感器和分子开关。
Ftir results revealed that there were strong intermolecular interactions between dwnts and ferrocene , indicating electron transfers occured between them 红外光谱研究结果表明,碳纳米管管壁与内部二茂铁之间存在强的电子相互作用,并伴有电子转移。
An analogy was employed between the mass transfer for the faciliated transport with fixed carrier membrane and the electron transfer in a resistor - capacitor ( rc ) circuit 通过将固定载体膜内的质量传递与电阻电容回路中的电子传递相类比,提出适用于非对称膜固定载体促进传递的数学模型。
Electron transfer 2 . 1 . some basis mechanics , especially the activation model and the theoretical expression of the electron - transfer rate used in this paper have also been introduced 介绍了电子转移的一些基本机理,着重介绍了本文所用到的有关自交换电子转移活化模型及计算耦合体系电子转移速率的理论框架。
To improve the electron transfer capability of carbon nanotubes , a ferrocene - carbon nanotubes were prepared , where carboxyl ferrocene were covalently coupled to ammonia pt - cnts through carbondiimide reagent 此外,铂纳米粒子尚具有良好的催化h2o2氧化的特性, h2o2在nafion - mwnt - pt / gce上的计时电流响应明显增大。
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。
Chapter 4 comprises two part . part reports on the manufacture and characterization of glucose oxidase - silver sol - polyvinyl butyral modified platinum electrodes with naphthol green b as an electron transfer mediator in the glucose solution 在第四章中,首先研究了纳米ag在以萘酚绿b为电子媒介体的葡萄糖氧化酶生物传感器中的应用。
The interaction between artemisinin and hemin was investigated by electrochemical methods . artemisinin was irreversibly reduced at - 1 . 08v via a two - electron transfer at the glassy carbon electrode . in the presence of concentration of hemin as low as 4 . 010 青蒿素在玻璃碳电极上于- 1 . 08v处能发生一个2电子转移的不可逆还原。即使在低至4 . 010
The theory is based on the same sticking point , which are the difference of the equilibrium structure when a molecule or a cation receive or lose a electron and the electronic factor of electron transfer 理论立足于电子转移的关键,即当一个分子或离子得到或失去一个电子时所发生的核平衡构型的变化动力学问题及决定电子转移的电子困子问题。
Psii consists of more than 20 different subunits , most of them being integral membrane proteins , mediating the electron transfer chain . so revealing the organization of psii subunits is a key point to elucide the mechanism of psii function Ps的各蛋白组分有序地排列在类囊体膜上,通过其结合的辅因子形成了独特的电子传递和水裂解体系。