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Improvement in chemical mechanical polishing of 4H-SiC wafer by activating persulfate through the synergistic effect of UV and TiO2

化学机械平面化 材料科学 薄脆饼 X射线光电子能谱 碳化硅 泥浆 表面粗糙度 化学工程 抛光 复合材料 纳米技术 工程类
作者
Wantang Wang,Baoguo Zhang,Yunhui Shi,Tengda Ma,Jiakai Zhou,Ru Wang,Hanxiao Wang,Nengyuan Zeng
出处
期刊:Journal of Materials Processing Technology [Elsevier BV]
卷期号:295: 117150-117150 被引量:89
标识
DOI:10.1016/j.jmatprotec.2021.117150
摘要

Abstract Chemical mechanical polishing (CMP) has revolutionized the processing of semiconductor material such as silicon carbide (SiC). However, the strong chemical bond between silicon atoms and carbon atoms gives SiC materials a very high mechanical hardness and chemical stability. Therefore, SiC wafers may suffer from a low material removal rate (MRR) and serious subsurface damage when traditional CMP methods are used. In this study, to improve the CMP properties of Si-face of the 4H-SiC wafers, the synergistic effect of UV and TiO2 on the activation of persulfate (PS) was investigated for the first time. The response surface method was employed to study the effect of pH, PS concentration, and TiO2 dosage on CMP in-depth, and to ultimately optimize the polishing process. The analysis demonstrated that an MRR of 608 nm/h can be obtained with the average surface roughness (Sq) of 0.521 nm when the pH is 6, in which the TiO2 dosage is 0.015 wt% and the PS concentration is 3 wt%. Polarization curves, AC impedance spectra and X-ray photoelectron spectroscopy tests were performed to further analyze the chemical action of the slurry, which showed that the introduction of UV-TiO2 strongly enhances the chemical action of slurry and results in the formation of a passivated layer on the SiC surface. Finally, based on the radical quenching experiments and the results mentioned above, a model that relates to the removal of 4H-SiC by UV-TiO2 synergistic activation of PS is proposed.
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