在900至1050°C和1bar总压力下,从三甲基硼嗪、氨和氢的气体混合物中化学气相沉积氮化硼的动力学

A. Jörg, D. Neuschütz, E. Zimmermann
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引用次数: 8

摘要

研究了1,3,5-三(n -甲基)硼嗪(TMB)、氨和氢的混合气体在900 ~ 1050℃、总压力为1bar条件下气相沉积氮化硼的动力学。TMB是一种介于-3 ~ 136℃之间的液体,被认为是BN CVD的单源前驱体。然而,为了抑制气相成核,必须加入足够多的氨。在900°C以下,10小时内未观察到沉积。在900 ~ 980℃之间,沉积速率由表面反应控制,表观活化能为145 kJ mol -1。该反应对TMB为一级反应,对nh3和h2均为零级反应。在1000℃以上,活化能降至26 kJmol -1,对应于气体扩散作为速率决定步骤。气相成核使得在1000°C以上很难产生光滑的薄膜。反应产物为涡层六方氮化硼,温度约为52 at。-%氮,46 at。-%硼和1-2 at。-%共沉积碳。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kinetics of Chemical Vapour Deposition of Boron Nitride from a Gas Mixture of Trimethylborazine, Ammonia, and Hydrogen at 900 to 1050 °C and 1 Bar Total Pressure
The kinetics of CVD of boron nitride from a gas mixture of 1,3,5-tri(N-methyl)borazine (TMB), ammonia, and hydrogen were studied at 900 to 1050°C and a total pressure of 1 bar. TMB, a liquid between -3 and 136°C, is assumed to be a single source precursor for CVD of BN. However, to suppress gas phase nucleation, one has to add sufficiently large amounts of ammonia. Below 900°C no deposition was observed within 10 hours. Between 900 and 980°C the deposition rate was controlled by a surface reaction with an apparent activation energy of 145 kJ mol -1 . The reaction was found to be first-order with respect to TMB and zero-order in both NH 3 and H 2 . Above 1000°C the activation energy decreased to 26 kJmol -1 which corresponds to gas diffusion as the rate-determining step. Gas phase nucleation makes it difficult to produce smooth films above 1000°C. The reaction product was turbostratic hexagonal boron nitride with about 52 at.-% nitrogen, 46 at.-% boron, and 1-2 at.-% codeposited carbon.
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