The sensitizer, which captures the sunlight and transfer electron from its oxidation state to the conduction band of anode, is a crucial segment in DSSCs.
光敏染料吸收光能并且将激发态电子注入半导体导带中,从而实现光伏转换,是染料敏化太阳电池中的重要组成部分。
It is not result of spin pairing to form chemical bonds, Instead, transfer electron from the atomic orbital of taller energy to the moleen -lar orbital of lower energy.
在化学键形成时并不是电子配对的结果,而是电子从能量较高的原子轨道转移到能量较低的成键的分子轨道上使体系能量降低的结果。
Hydrophobic inhibitors like rotenone or piericidin most likely disrupt the electron transfer.
诸如鱼藤酮或匹利替丁的疏水性抑制剂最有可能破坏电子转移。
Electron transfer, we cannot live, we die without sodium chloride.
电子转移了,没有氯化钠我们不能生存。
You start with liquid metal one, liquid metal two, you have the atom ratios proper, they mix, electron transfer occurs and poof, it is clear and colorless. Sorcery.
从液态金属一,液态金属二开始,你有合适的原子比例,混合它们,电子转移发生且被证实了,产物是透明无色的,有点辣味。
就是电子转移。
All of these have engaged in electron transfer.
这些都与电子转移有关。
电子转移发生了。
He says understanding the electron transfer processes in these molecules provides a way to design organic materials for storing electrical energy that could then be retrieved for later use.
他说,理解存在于这些分子中的电子转换过程为设计有机材料用于储存电能提供了新的方法,这些电能可以在以后的使用中取回。
However, if such high-efficiency solar cells based on hot-electron transfer are to be become a reality, we have shown the necessary first step.
不过,如果基于热电子传导的高效太阳能电池板最终能实现的话,我们已经踏出了所必须的第一步。
We also installed a chemical switch that allowed the electron transfer process to proceed in the opposite direction.
我们同样按照了一个化学开关,它可以允许电子交换过程以相反的方向进行。
The researchers didn't expect to see hot-electron transfer in action, just the transfer of ordinary electrons.
研究人员只预期了一般电子的传导,而并未指望能观测到热电子的传导。
The team will now attempt to detect the transferred electrons as current and make solar cells that exploit hot electron transfer, even if the efficiency is still low.
该团队将尝试探测电子传导的电流并制作基于热电子传导的太阳能电池板,即使其能量转化效率仍然很低。
As long as you can find two chemicals or minerals that can transfer an electron between them, you've got an energy source, a microscopic battery of sorts.
只要两种化合物或矿物之间能交换电子,它们就是一个能量源,就像一个微小的电池。
The result showed that galena surface state interacted with adsorbates not only in overlap of orbitals, but in electron transfer between them.
结果表明:方铅矿表面态在与外来吸附质相互作用时,不仅有轨道重迭而且发生电子转移。
It provides surface for the accommodation of enzymes. eg. the electron transfer system in respiration.
它可提供安放酶的表面,例如为呼吸作用中的电子传递系统提供表面。
This "delocalization" allows electron transfer from the nanocrystals to an electron-accepting material placed nearby, such as TiO2.
这一“离域作用”使得电子可以从纳米晶体传导到附近的电导体元件,例如TiO2。
The surface oxidation of galena and the micro-process of electron transfer involved in the oxidation have been stu died through voltammetry and quantum chemical calculation.
伏安曲线和量子化学计算分别用来研究方铅矿表面的阳极氧化和氧化过程中电子转移的微观机制。
When an organic molecule like electron donating pyridine adsorbs on the surface, cations get reduced due to charge transfer.
当一个有机分子如电子给予体吡啶吸附在表面上时,阳离子由于电子转移而还原。
They posses a high surface area for better electron transfer, which can lead to the improved performance of an electrode in an electric double capacitor or battery.
纳米多孔金属材料由于其较高的表面积所以拥有良好的电子传输特性,这正好改善了其在导电双电容或电池上的电极性能。
There is regular arrangement and anisotropic property among molecules of LB film by which can realize the energy transfer and electron transfer.
LB膜分子间具有规整的排列和各向异性,可以实现能量转移及电子转移。
Small molecule atomic particles, atoms extranuclear electron transfer.
分子原子小粒子,原子核外电子转。
The research progress of the electron transfer mediators for amperometric mediated enzyme biosensor is reviewed.
评述了国内外介体型电流式酶生物传感器用电子媒介体的研究进展。
Electron transfer reaction, one of the forward questions in chemical researches a very active domain in natural science in recent years.
电子转移反应是近年来自然科学中十分活跃的研究领域,是化学研究的前沿课题之一。
It deconvolves that reaction of sodium plus chlorine into elementary steps that are related to electron transfer and acquisition.
它将钠和氯的反应,分解成基本的步骤,这些步骤是直接与电子的转移和获得有关的。
An ionic bond is characterized by the transfer of an electron from one atom to the other.
离子键的特点是一个电子可以从一个原子转移到另一个原子。
We started with gaseous sodium to make gaseous sodium ion and gaseous atomic chlorine to make gaseous chloride ion through electron transfer.
我们从气态的钠开始,得到气态的钠离子,从气态的氯原子,通过电子转移得到氯离子。
The review examines electrode interfaces by directly comparing them with biological electron transfer systems.
文中直接将电极界面与生物电子转移系统相比较,来检验前者。
A new theoretical method of calculation of the reorganization energy in electron transfer reaction at electrode is presented in this paper.
本文为精确计算电极上电子转移反应中的重组能提供了一种新的理论方法。
A new theoretical method of calculation of the reorganization energy in electron transfer reaction at electrode is presented in this paper.
本文为精确计算电极上电子转移反应中的重组能提供了一种新的理论方法。
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