机构地区:[1]清华大学机械工程系,高端装备界面科学与技术全国重点实验室,北京100084
出 处:《清华大学学报(自然科学版)》2025年第2期269-279,共11页Journal of Tsinghua University(Science and Technology)
基 金:国家自然科学基金重大项目(51991373)。
摘 要:化学机械抛光(CMP)技术利用纳米颗粒机械磨削作用与抛光液化学作用的有效结合,为互连结构不间断的层层堆叠提供可能性。随着集成电路制造技术发展到7 nm及以下节点,金属钴因其较低的平均电子自由程和出色的沉积性能,已在后段制程(back-end-of-line, BEOL)中成为代替铜最有潜力的新型互连材料。在钴互连异质结构晶圆CMP过程中,实现互连层钴与阻挡层钛的去除选择性及晶圆全局平坦化是首要解决的关键问题。该文探讨了互连结构中钴和钛在CMP过程中的去除机制,并通过电化学测试、静态腐蚀及纳米划痕等多种实验手段,分析了含不同数量氨基和羧基决定性官能团的络合剂对钴和钛去除选择性的影响。结果表明,钴的去除主要依赖于化学腐蚀和腐蚀促进机械磨损作用,而钛的去除则主要依赖机械磨损作用。含氨基基团的络合剂可显著提高钴的去除速率,而钛的去除速率则可通过增加磨料质量分数得到增强。基于大量实验,构建了决定性官能团数据库,提出了钴和钛异质结构去除选择性的调控策略,并通过图形晶圆验证了有效性,确定了两道抛光的最佳工艺参数。该成果为抛光工艺优化提供了理论支撑,对先进集成电路中的多层互连结构平坦化具有重要指导意义。[Objective]As integrated circuit(IC)technology progresses to 7-nm nodes and beyond,cobalt(Co)has emerged as a promising substitute for copper(Cu)in interconnects.This shift is driven by Co's shorter electron mean free path,excellent electromigration resistance,and superior deposition characteristics.This study addresses the challenges associated with the selective removal of Co and titanium(Ti)barrier layers during the chemical mechanical polishing(CMP)process while also achieving global wafer planarization.By optimizing the functional groups in the slurry,the process enhances the selectivity of the removal process.[Methods] This research integrates CMP experiments with electrochemical tests,static etch experiments,and nanoscratch tests to analyze the removal behaviors of Co and Ti within Co interconnect heterostructures.Electrochemical tests are used to assess the impact of chemical reactions on material removal,while nanoscratch tests evaluate the mechanical strength of wafer surfaces after chemical exposure.The study focuses on the role of complexing agents containing amino(-NH,)and carboxyl(-COOH)functional groups in improving removal efficiency.By correlating electrochemical data with removal rates,the action mechanisms of these functional groups in the slurry are explored.Additionally,the study analyzes how adjusting the abrasive concentration in the slurry affects Ti removal efficiency.[Results]Experimental results demonstrate significant differences in the removal mechanisms of Co and Ti.Co removal is predominantly driven by chemical corrosion,significantly accelerated by amino functional groups.Mechanical action also plays a role,contributing to rapid Co removal.This behavior is attributed to strong complexation reactions between Co ions and amino groups,facilitating Co dissolution and enhancing the chemical corrosion process.Conversely,carboxyl functional groups have a relatively minor impact on Co removal.Ti removal is primarily led by mechanical action,with chemical corrosion playing a minor role.Incr
关 键 词:化学机械抛光 钴互连异质结构 决定性官能团 抛光工艺
分 类 号:TN401[电子电信—微电子学与固体电子学]
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