光生伏特效应

  • 网络Photovoltaic Effect;photo voltage effect
光生伏特效应光生伏特效应
  1. PN结光生伏特效应的理论研究

    A Study of Photovoltaic Effect of PN Junction

  2. 金属栅线,作为太阳能电池的重要组成部分,是将光生伏特效应产生的电子收集并导出以提供电能的枢纽,因此改善栅线形成工艺、进行相关领域的研究,对于提高电池效率至关重要。

    Finger , as a key part of solar cells , can collect and derive the current which comes from the photovoltaic effect , therefore , improving and researching finger technique are very important to improve the efficiency of the solar cells .

  3. 迭加原理的错误及纠正&评PN结光生伏特效应

    Error in the Principle of Superposition and Its Correction & On PN Junction Photovoltaic Effect

  4. 利用PN结的光生伏特效应,采用集成电路的工艺技术和特殊处理方法,研制成功了短路电流大于10μA,开路电压大于8V的红外硅微电流光电池。

    An infrared silicon micro current photocell is presented , which has been developed based on the photovoltaic effect and using IC process and special treatment . The fabricated photocell has a short circuit current greater than 10 μ A and an open circuit voltage greater than 8 V.

  5. 多孔硅的光生伏特效应

    Photovoltaic effect of porous silicon

  6. 我们发现LN:Fe中的这些损伤缺陷能够为光生伏特效应下的空间电荷所缀饰;它们在正交偏光镜下明晰可见。

    We also found that these damage defects in LN : Fe can be decorated by space-charges due to photovoltaic effect and they are directly observable between crossed polarizers .

  7. 本文研究了富锂LiNbO3:Mg:Fe晶体的光折变和光生伏特效应,并与LiNbO3:Fe和LiNbO3:Mg晶体进行了比较。

    The photorefraction and photovoltaic effects in Li-rich LiNbO_3co-doped with Mg and Fe were studied in comparision with that in LiNbO_3 : Fe and Li-rich LiNbO_3 : Mg .

  8. Mg:Fe:LiNbO3晶体的光折变和光生伏特效应

    Photorefraction ana photovoltaic Effect in LiNbO_3 : Mg : Fe

  9. 光电池非线性区PN结光生伏特效应的研究

    Study on overlapping principle of PN junction in nonlinear zone of photoelectric cell

  10. 提出了其光致折射率变化的机制主要是由光生伏特效应决定。

    The origin of optically induced refractive index in doped lithium niobate is presented .

  11. 根据光电池线性区应用叠加定理建立的PN结光生伏特效应理论,阐述了PN结光生伏特效应在光电池非线性区的应用。

    Overlapping theory of PN junction applied to linear zone of photo cell has been built based on PN junction photovoltaic effect . In the paper , the application of overlapping principle to non linear zone of photo cell is presented .