A.M. Lukianov, M.G. Dusheiko, V. Lozinskii, V. Temchenko, V. N. Dikusha, N. Klyui
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引用次数: 0
摘要
研究了富碳碳化硅薄膜的热稳定性。使用温度高达 700 °C 的空气退火来模拟薄膜在光电子器件(如覆盖碳化硅减反射涂层的太阳能电池)中的工作热条件。研究了不同碳硅比的碳化硅薄膜。结果表明,在空气中退火会导致薄膜连续氧化,并从碳化硅转变为氧化碳化硅复合材料。与未退火的薄膜相比,氧化复合材料的厚度、元素组成和光学特性都发生了变化。其中,含硅量较高的薄膜在温度升高时显示出更好的光学特性稳定性。在退火过程中,由于氧化硅的形成而增加的薄膜厚度与由于氧化碳的形成和蒸发而减少的厚度形成了竞争。
Effect of annealing in air on the properties of carbon-rich amorphous silicon carbide films
Thermal stability of thin carbon-rich Si carbide films was studied. Air anneals at the temperatures up to 700 °C were used to model the operation thermal conditions of the films in photoelectronic devices such as solar cells covered by Si carbide antireflection coatings. Si carbide films with different carbon-to-silicon ratios were studied. Annealing in air was shown to lead to consecutive film oxidation and transformation from Si carbides to oxidized Si carbide composites. The oxidized composites demonstrated the changes in thickness, element composition and optical properties as compared to the non-annealed films. At this, the films with higher Si content showed better stability of the optical properties at increased temperatures. During annealing, the increase of the film thickness by Si oxide formation competed with the thickness decrease by formation and evaporation of carbon oxide.