铜
材料科学
化学机械平面化
化学工程
抛光
冶金
化学
纳米技术
复合材料
肺表面活性物质
吸附
作者
Mengqi Wang,牛新环,Jiakai Zhou,Bin Hu,Jiahui Li,Zheng Wu,Ziliang Liu,Qing Ma,Shaobo Song,Yingqian Jia
出处
期刊:Langmuir
[American Chemical Society]
日期:2026-05-26
卷期号:42 (22): 15273-15291
标识
DOI:10.1021/acs.langmuir.6c01478
摘要
With the continuous advancement of integrated circuits (ICs), copper (Cu) interconnects require chemical-mechanical polishing (CMP) with high planarization accuracy, low defect density, and strict corrosion control. Surfactants are crucial components in Cu interconnect CMP slurries because they can regulate abrasive dispersion, modify interfacial interactions, enhance wettability, and form adsorption films that inhibit Cu corrosion. These functions directly affect the material removal rate (MRR) and surface roughness. However, Cu interconnect CMP still faces significant challenges, including dishing and erosion, slurry instability, and the balance between high MRR and surface quality. Recent studies indicate that optimized surfactant molecular design and synergistic compound systems can regulate interfacial reactions and improve slurry stability, achieving nanometer-scale surface roughness while maintaining a high MRR. This review summarizes the classification, mechanisms, and recent progress of surfactants in Cu interconnect CMP, highlights the synergistic effects of compound systems and outlines future research prospects, including the development of environmentally sustainable surfactants, multiscale quantum chemistry and molecular dynamics simulations, and data-driven artificial intelligence (AI)-assisted design.
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