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引用次数: 1
摘要
多界面的概念似乎允许相当大的提高目前的效率限制硅太阳能电池。实验研究了几种类型的多界面Si结构,例如通过杂质注入和适当的热处理获得的Si结构。所研究的器件最具特色的特征是埋置的非晶化子结构,其前后边缘由a- si /c-Si异质界面划分。电子显微镜和x射线研究表明,这两个相被一个非常锋利的界面和一个非常薄的c-Si过渡区分开,具有新的晶体性质。这样就可以通过带隙、缺陷和应力工程很好地控制活性子结构和活性界面。所得结果为实际实现理论和仿真所假定的改进提供了可能的途径之一。
Multiinterface Si solar cells with active substructures and active interfaces
The multiinterface concept seems allow a considerable increase of the present efficiency limit of Si solar cells. An experimental investigation of several types of multiinterface Si structures obtained, for example, by impurity implantation and adequate thermal treatment has been carried out. The most characteristic feature of the devices investigated concerns a buried amorphized substructure which is delimited at its front and back edges by a-Si/c-Si heterointerfaces. Electron microscope and X-ray studies show that these two phases are separated by a very sharp interface and a very thin c-Si transition zone with new crystalline properties. In this way, active substructures and active interfaces can be well-controlled by bandgap, defect and stress engineering. The results obtained indicate one of the possible ways towards the practical realization of improvements postulated by theory and simulations.
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