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Kreethi R.,황유진,Lee Ho-Young,박재혁,이기안 한국세라믹학회 2024 한국세라믹학회지 Vol.61 No.1
The plasma-resistant properties of surfaces coated with synthesized and commercial yttrium oxyfluoride materials, respectively, were investigated by exposing them to fluorine-based NF3 plasma. Yttrium oxyfluoride (YOF) powder (30.8 μm, 99.8% purity), synthesized via a solid-state wet chemical process, and commercially available YOF powder (31.0 μm, 99.9%, purity) were used as spraying materials for deposition on aluminum (Al) substrates using the atmospheric plasma spraying (APS) technique. PECVD-NF3 plasma was used to study the etching resistance of the YOF coating samples. The surface morphology and phase compositions of these coatings, and their ability to resist fluoro-based plasma etching were systematically characterized by various techniques. X-ray photoelectron spectroscopy (XPS) revealed variations in the elemental and chemical compositions of the coated surfaces of the two YOF specimens after fluorination. After exposure to plasma, the relative intensity ratio of Y–F to Y–O peaks of the synthesized and commercial YOF coatings were 1.37 and 1.35, respectively. These results indicate that the synthesized YOF coating treated with NF3 plasma offers higher resistance against plasma than the commercial YOF coating, and thus accumulates fewer contamination particles. The synthesized YOF ceramic material therefore is a promising candidate for application as chamber coating material, for example in the semiconductor manufacturing process.