Recovery Method of Pyrolytic Carbon Surface after Exposure to Chlorine Trifluoride Gas

Masaya Hayashi, Keisuke Kurashima, Hitoshi Habuka, A. Ishiguro, S. Ishii, Y. Daigo, Hideki Ito, I. Mizushima, Yoshinao Takahashi
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Abstract

An annealing process was developed for the practical recover of a purified py-rolytic carbon (PPyC) surface from damage, such as color change and peeling, due to fluorination during exposure to chlorine trifluoride gas at high tempera-tures for the cleaning of a silicon carbide chemical vapor deposition reactor. The PPyC surface was annealed at 900°C for 10 min in ambient nitrogen con-taining oxygen at the concentrations of 0.01% - 20%. The rainbow-like colored surface returned to the dark gray color of the original PPyC. Simultaneously, the thin peeled films disappeared. The Raman spectra showed that the PPyC surface chemical bonding returned to that of the original one. The oxygen concentration as low as 0.01% could recover the PPyC surface along with re-ducing the surface pit formation, when the combination of the exposure to chlorine trifluoride gas and the recovery was repeated.
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三氟化氯气体暴露后热解炭表面的回收方法
研究了一种退火工艺,用于实际回收纯化的pylytic (PPyC)表面,使其在高温下暴露于三氟化氯气体中,由于氟化而造成的损伤,如颜色变化和剥落,用于碳化硅化学气相沉积反应器的清洗。将PPyC表面在含氧浓度为0.01% ~ 20%的环境氮中900℃退火10 min。彩虹般的彩色表面恢复到原来PPyC的深灰色。同时,剥离的薄膜也消失了。拉曼光谱表明,PPyC表面化学键恢复到原来的化学键。当三氟化氯气体暴露与回收同时进行时,0.01%的氧气浓度可以回收PPyC表面,同时减少表面凹坑的形成。
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