硅基薄膜叠层太阳能电池中间层的光学设计与计算
发布时间:2019-06-29 08:49
【摘要】:叠层结构是提高硅基薄膜电池效率和稳定性的有效方法,然而子电池电流不匹配使其效率的提升受到限制。为了提高叠层电池的子电池电流匹配度,需选择合适的中间层材料。通过硅基薄膜叠层电池的中间层的光学设计和理论计算,获得了材料折射率与厚度的匹配关系:中间层材料折射率n选取范围为1.59~3.1,中间层厚度d的制备范围为125/n~175/n nm,最佳厚度d为150/n nm。最优中间层材料的折射率和厚度应为:n约为1.59,d约为94.3nm,采用这一条件可最大限度地提高硅基薄膜叠层电池的子电池电流匹配度。从叠层电池中间层的光学特性方面入手为实验研究提供了设计指导。
[Abstract]:Laminated structure is an effective method to improve the efficiency and stability of silicon-based thin film batteries. However, the current mismatch of subbatteries limits the efficiency of silicon-based thin film batteries. In order to improve the current matching of laminated battery, it is necessary to select the appropriate intermediate material. Through the optical design and theoretical calculation of the middle layer of silicon based thin film laminated battery, the matching relationship between the refractive index and thickness of the material is obtained: the refractive index n of the middle layer material is 1.59 鈮,
本文编号:2507697
[Abstract]:Laminated structure is an effective method to improve the efficiency and stability of silicon-based thin film batteries. However, the current mismatch of subbatteries limits the efficiency of silicon-based thin film batteries. In order to improve the current matching of laminated battery, it is necessary to select the appropriate intermediate material. Through the optical design and theoretical calculation of the middle layer of silicon based thin film laminated battery, the matching relationship between the refractive index and thickness of the material is obtained: the refractive index n of the middle layer material is 1.59 鈮,
本文编号:2507697
本文链接:https://www.wllwen.com/kejilunwen/dianlilw/2507697.html
教材专著
