Synthesis and Analysis of SiBCN Films Obtained by Plasma-Enhanced Chemical Vapor Deposition from Triethylaminoborane, Hexamethyldisilazane, and Ammonia

IF 1.2 4区化学 Q4 CHEMISTRY, INORGANIC & NUCLEAR

Journal of Structural Chemistry Pub Date : 2024-09-04 DOI:10.1134/S002247662408002X

E. N. Ermakova, E. A. Maksimovsky, A. D. Fedorenko, A. A. Shapovalova, E. A. Khizhnyak, M. L. Kosinova

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Abstract

SiBCN films are synthesized by plasma-enhanced chemical vapor deposition at a reduced pressure and 500-600 °C. Organoelement silicon and boron compounds are selected as precursors, namely, hexamethyldisilazane HN(SiMe₃)₂ and triethylaminoborane Et₃N·BH₃ that were not used previously in the synthesis of SiBCN films. Vapor flows of initial compounds and additional gas (ammonia) were separately supplied to the reactor without premixing. The chemical bonding structure, elemental composition, surface morphology, and film deposition rate are studied by FTIR, XPS, wave dispersive X-ray spectroscopy, SEM, and Raman spectroscopy techniques. The surface morphology analysis of the samples shows that the films are smooth, homogeneous, and uniform without features. Variation of precursor concentrations in the initial mixture allows changes in the film composition in a wide range. The boron concentration in four-component coatings reaches 45 at.%. The study of chemical bonding structures of the films reveals the occurrence of Si–C, Si–N, B–N, C–H bonds along with the hybrid BC_nN_3–n bond.

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三乙胺硼烷、六甲基二硅氮烷和氨通过等离子体增强化学气相沉积法获得的 SiBCN 薄膜的合成与分析

摘要在减压和 500-600 ℃条件下，通过等离子体增强化学气相沉积合成了硅硼烷薄膜。有机元素硅和硼化合物被选作前驱体，即六甲基二硅氮烷 HN(SiMe3)2 和三乙胺硼烷 Et3N-BH3，这两种化合物以前从未用于合成 SiBCN 薄膜。初始化合物和附加气体（氨气）的气流分别进入反应器，不进行预混合。傅立叶变换红外光谱、XPS、波色散 X 射线光谱、扫描电镜和拉曼光谱技术对化学键结构、元素组成、表面形貌和薄膜沉积速率进行了研究。样品的表面形貌分析表明，薄膜光滑、均匀、一致，没有特征。通过改变初始混合物中前驱体的浓度，可以在很大范围内改变薄膜的组成。四组份涂层中的硼浓度达到 45%。对薄膜化学键结构的研究表明，存在着 Si-C、Si-N、B-N、C-H 键以及混合 BCnN3-n 键。

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来源期刊

Journal of Structural Chemistry 化学-无机化学与核化学

CiteScore

1.60

自引率

12.50%

发文量

142

审稿时长

8.3 months

期刊介绍： Journal is an interdisciplinary publication covering all aspects of structural chemistry, including the theory of molecular structure and chemical bond; the use of physical methods to study the electronic and spatial structure of chemical species; structural features of liquids, solutions, surfaces, supramolecular systems, nano- and solid materials; and the crystal structure of solids.