交流阻抗方法 的结果和光电化学的结果相一致。
The results from photoelectroche mical technique are in agreement with those from AC impedance technique.
半导体光电化学已广泛用于化合物半导体的材料测试和器件工艺。
The photoelectrochemistry of semiconductors has been widely used for the investigation of compound semiconductor materials and for the improvement of device technologies.
在实验过程中,光电化学催化反应器中的阳极偏压由双显恒电位仪提供。
A bias-voltage between two electrodes is supplied by a potentiostat in the experiment.
本文描述了太阳能光电化学电池的串联电阻及理想填充因子的一种简单估算方法。
A simple method for estimated series resistance losses and ideal fill factor of photo-electrochemical cell is descried.
工作机器支架及硅片盒夹具均采用耐腐蚀、经特殊亚光电化学处理的不锈钢材料。
Working machines and wafer holder clamps are corrosion-resistant box, with a special matte electrochemical treatment of stainless steel.
本文的主要内容包括: (1)阐述了准分子激光电化学刻蚀硅工艺的基本原理。
The thesis comprises 3 parts: (1) The basic principle of the process is described.
光电化学池的寿命以及制造光电化学池所消耗的能量也是影响能量产出的重要因素。
The lifespan of the PEC cell, the energy used to manufacture the PEC cell, and the lifespan of the rest of the facility are the other most important factors.
采用电化学、光电化学和交流阻抗等方法研究了氢对纯铁钝化膜形成过程和电子性质的影响。
Pure iron membranes were pre-charged with hydrogen at various current densities. Effect of hydrogen on the film formation process on iron was studied by electrochemical methods.
本文首次用激光作激励光源,在P型硅片上成功地进行了光电化学成像沉积,得到层次清晰的图像。
Laser is used as active light source for the first time in photoeleotrochemioal image deposition on P-type silicon substrate, and pictures with clear structures are obtained.
本发明公开了一种属于太阳能电池和纳米材料应用技术领域的异质结和光电化学混合太阳能电池结构。
The invention discloses a heterojunction and photoelectrochemistry mixed solar cell structure which belongs to the technical field of the applications of solar cells and nano materials.
利用X射线衍射(XRD)、X射线光电子能谱(XPS)对材料进行表征,并将复合材料用作锂离子电池负极材料,研究了它作为负极的电化学性能,并初步探讨了化学机理。
The composite was investigated by XRD and XPS, its electrochemical performance as anode active materials for lithium ion batteries was studied, and its chemical mechanism was discussed.
我们用电化学方法、扫描电镜、X射线光电子能谱和X射线荧光光谱法对此进行了证明。
We utilized the electrochemistry, scanning electron micrograph, X-ray fluorescence spectroscopy and X-ray photoelectron spectroscopy to demonstrate this mechanism.
我们用电化学方法、扫描电镜、X射线光电子能谱和X射线荧光光谱法对此进行了证明。
We utilized the electrochemistry, scanning electron micrograph, X-ray fluorescence spectroscopy and X-ray photoelectron spectroscopy to demonstrate this mechanism.
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