提出了一种求取混合导电体电子电导率的方法。
A method for measuring the electron conductivity in mixed conductor is pre-sented.
参数包括离子电导率,电子电导率,迁移数和分解电压等。
And the parameters include ionic specific conductivity, electronic specific conductivity, transference number and decomposition potential and so on.
随着实验温度的增加,乳剂晶体的电子电导率和空穴电导率都下降。
With the increase of the temperature, the electron conductivity and hole conductivity decreased.
尤其是这些有机金属纳米片在红色到计划外区发光,而他们的电子电导率可以用可见光辐照来调整。
Notably, these organometallic nanosheets luminesce in the red to near infrared region, and their electronic conductivity can be modulated by visible-light irradiation.
时效初期,过饱和固溶体分解形成原子偏聚区,电子散射增加,合金电导率下降。
At the beginning of ageing, GP zone was formed with the decomposition of the supersaturated solid solution, electron scattering increased, the electrical conductivity decreased.
考虑了低混杂波电流驱动时非线性效应的波谱展宽、附加电导率以及电子和离子的温度变化。
The nonlinear broadening of spectrum, the RF-induced-tail producing additional conductivity, and time evolution of average electron and ion temperatures are taken into account.
我们研究了双层二维电子气中的自旋霍尔电导率以及隧穿自旋流。
We study the spin Hall conductivity and tunneling spin current in the bilayer two-dimensional electron gas.
计算了二维无序系统的电子态密度、迁移率边界、局域化临界点以及直流电导率。
The local density of states (LDOS), the mobility edge, the localization critical value and the DE conductivity for two-dimensional disorder systems are calculated.
由元素分析、红外光谱、电子光谱、失重分析和摩尔电导率对配合物进行了表征。
The complexes were characterized by elemental analysis, IR spectra, UV spectra, weight loss analysis and molar conductivity, and tested for antibacterial activity.
结果表明,和氢溴酸对PANI的质子酸掺杂不同,溴掺杂过程中产生的溴负离子增加了PANI的载流子浓度,形成了电子转移复合物,提高了聚苯胺的电导率。
It is showed that bromine anions and charge transfer complex formed in the doping process enhanced the charge carrier concentration then promote the conductivity of PANI.
同时对在PET基板上的膜做弯曲测量,发现膜的电导率并不随着弯曲次数的变化而变化,这就为聚苯胺作为光电子器件奠定了很好的基础。
At the same time in the PET substrate film, bent the films for 200 times, and we found than the conductivity of polyaniline not to change, this laid a good foundation for optoelectronic devices.
同时对在PET基板上的膜做弯曲测量,发现膜的电导率并不随着弯曲次数的变化而变化,这就为聚苯胺作为光电子器件奠定了很好的基础。
At the same time in the PET substrate film, bent the films for 200 times, and we found than the conductivity of polyaniline not to change, this laid a good foundation for optoelectronic devices.
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