1) back electrode
背电极
1.
Experiment and analysis on the characteristics of back electrode for the a-Si∶H solar cell with large area;
大面积a-Si∶H太阳电池背电极性能实验与分析
2.
The approaches have been explored to reduce the bending of solar cell by adjusting the back electrode paste and the thickness of silicon substrate.
通过调整背电极浆料和电池基片厚度,探索了减少太阳电池弯曲度的途径。
3.
In preparation of back electrode,it should be annealed under appropriate conditions to enhance its reflection.
在薄膜电池前电极的制备过程中为了增强其陷光作用应采用直接制备的方法,而为了增强A l背电极的光反射作用,背部的透明导电膜应采用在合适温度下的退火工艺。
2) aluminum back electrode
Al背电极
1.
Scanning electron microscopy and X-ray diffraction techniques were used to identify the change in surface and microstructure of aluminum back electrodes.
本文首先采用电阻蒸发法制备了不同厚度的Al薄膜,并选择了两个典型厚度的Al薄膜制备工艺来制备非晶硅太阳电池的Al背电极,研究了Al背电极厚度对电池性能的影响。
3) all back-contact electrodes
全背电极
4) backplate,backspace
背面电极
5) Metal back electrode
金属背电极
1.
In order to find one kind of metal back electrode material, which can provide higher conversion efficiency at obviously lower cost, the effects of different metals on properties of CdTe solar cells have been studied.
本文研究不同金属背电极材料对CdTe太阳电池性能的影响,寻找能够获得更高转换效率和明显降低发电成本的金属背电极材料;并研究了CdTe太阳电池器件在封装前后的性能变化和封装后器件的稳定性。
2.
In order to find one metal back electrode material which can obtai.
本文研究能单独作为电源使用的,适合于大规模化生产的,大面积CdTe集成太阳电池组件的制备设备及其工艺;并研究不同金属背电极材料对CdTe太阳电池性能的影响,寻找能够获得更高转换效率和明显降低发电成本的金属背电极材料。
6) Cu/Mo back contacts
Cu/Mo背电极
补充资料:背对背
背靠背。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条