化学机械平面化
薄脆饼
材料科学
抛光
碳化硅
表面粗糙度
表面光洁度
数码产品
纳米技术
复合材料
电气工程
工程类
作者
Wantang Wang,Xuesong Lu,Xinke Wu,Yiqiang Zhang,Rong Wang,Deren Yang,Xiaodong Pi
标识
DOI:10.1002/admi.202202369
摘要
Abstract 4H silicon carbide (4H‐SiC) holds great promise for high‐power and high‐frequency electronics, in which high‐quality 4H‐SiC wafers with both global and local planarization are cornerstones. Chemical–mechanical polishing (CMP) is the key processing technology in the planarization of 4H‐SiC wafers. Enhancing the performance of CMP is critical to improving the surface quality and reducing the processing cost of 4H‐SiC wafers. In this review, the superior properties of 4H‐SiC and the processing of 4H‐SiC wafers are introduced. The development of CMP with chemical, mechanical, and chemical–mechanical synergistic approaches to improve the performance of CMP is systematically reviewed. The basic principle and processing system of each improvement approach are presented. By comparing the material removal rate of CMP and the surface roughness of CMP‐treated 4H‐SiC wafers, the prospect on the chemical, mechanical, and chemical–mechanical synergistic improvement approaches is finally provided.
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