全CVD卷到卷工艺，以获得完美的定向硅薄膜与氧化物缓冲层的金属带**

Chemical Vapor Deposition Pub Date : 2014-07-25 DOI:10.1002/cvde.201407107

Mikhail Moyzykh, Sergey Samoilenkov, Vadim Amelichev, Alexander Vasiliev, Mikhail Pozdnyakov, Alexey Mankevich, Vsevolod Tschepikov, Andrey Kaul

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引用次数: 1

摘要

在低成本、柔性金属带上具有尖锐双轴结构的硅薄膜是具有成本效益的光伏发电的重要材料。这种材料的成本可以通过应用易于扩展的化学沉积方法进一步降低。在本文中，我们报道了利用化学气相沉积法在镍合金带上制备外延硅薄膜，并采用金属有机(MO)化学气相沉积法制备缓冲层。提出了两种类型的缓冲层结构，使织构硅能够在织构Ni(Cr,W)合金和非织构哈氏合金带上生长。该Si薄膜具有高度的纹理和化学纯度，表明CVD形成的Si/缓冲/金属异质结构有可能应用于光伏产业。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Full CVD Reel-To-Reel Process to Obtain Perfectly Oriented Silicon Films on Metal Tapes with Oxide Buffer Layers**

Silicon films with a sharp biaxial texture on low-cost, flexible metal tapes are prominent materials for cost-effective photovoltaics. The cost of such materials can be further reduced by the application of easily scalable chemical deposition methods. In the present article, we report on the application of CVD to obtain epitaxial silicon films on Ni alloy tapes with metal-organic (MO)CVD-produced buffer layers. Two types of buffer layer architecture are presented, which enable textured silicon growth on textured Ni(Cr,W) alloy and on non-textured Hastelloy tape. The Si film appears highly textured and demonstrates chemical purity, indicating the possibility of application of proposed Si/buffer/metal heterostructures formed by CVD for the photovoltaic industry.

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来源期刊

Chemical Vapor Deposition 工程技术-材料科学：膜

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Chemical Vapor Deposition (CVD) publishes Reviews, Short Communications, and Full Papers on all aspects of chemical vapor deposition and related technologies, along with other articles presenting opinion, news, conference information, and book reviews. All papers are peer-reviewed. The journal provides a unified forum for chemists, physicists, and engineers whose publications on chemical vapor deposition have in the past been spread over journals covering inorganic chemistry, materials chemistry, organometallics, applied physics and semiconductor technology, thin films, and ceramic processing.