摘要
原子级加工制造是实现半导体晶圆原子尺度超光滑表面的有效途径.作为大尺寸高精密功能材料的原子级表面制造的重要加工手段之一,化学机械抛光(chemical mechanical polishing,CMP)凭借化学腐蚀和机械磨削的耦合协同作用,成为实现先进材料或器件超光滑无损伤表面平坦化加工的关键技术,在航空、航天、微电子等众多领域得到了广泛应用.然而,为了实现原子层级超滑表面的制备,CMP工艺中常采用的化学腐蚀和机械磨削方法需要使用具有强烈腐蚀性和高毒性的危险化学品,对生态系统产生了不可逆转的危害.因此,本文以绿色环保高性能抛光液作为对象,对加工原子量级表面所采用的化学添加剂进行分类总结,详尽分析在CMP过程中化学添加剂对材料表面性质调制的作用机理,为在原子级尺度下改善表面性质提供可参考的依据.最后,提出了CMP抛光液在原子级加工研究中面临的挑战,并对未来抛光液发展方向作出了展望,这对原子尺度表面精度的进一步提升具有深远的现实意义.
Atomic-scale fabrication is an effective way to realize the ultra-smooth surfaces of semiconductor wafers on an atomic scale.As one of the crucial manufacturing means for atomically precise surface of large-sized functional materials,chemical mechanical polishing(CMP)has become a key technology for ultra-smooth and non-damage surface planarization of advanced materials and devices by virtue of the synergetic effect of chemical corrosion and mechanical grinding.It has been widely used in aviation,aerospace,microelectronics,and many other fields.However,in order to achieve ultra-smooth surface processing at an atomic level,chemical corrosion and mechanical grinding methods commonly used in CMP process require some highly corrosive and toxic hazardous chemicals,which would cause irreversible damage to the ecosystems.Therefore,the recently reported green chemical additives used in high-performance and environmentally friendly CMP slurry for processing atomically precise surface are summarized here in this paper.Moreover,the mechanism of chemical reagents to the modulation of materials surface properties in the CMP process is also analyzed in detail.This will provide a reference for improving the surface characteristics on an atomic scale.Finally,the challenges that the polishing slurry is facing in the research of atomic-scale processing are put forward,and their future development directions are prospected too,which has profound practical significance for further improving the atomic-scale surface accuracy.
作者
郜培丽
张振宇
王冬
张乐振
徐光宏
孟凡宁
谢文祥
毕胜
Gao Pei-Li;Zhang Zhen-Yu;Wang Dong;Zhang Le-Zhen;Xu Guang-Hong;Meng Fan-Ning;Xie Wen-Xiang;Bi Sheng(Key Laboratory for Precision and Non-traditional Machining Technology of Ministry of Education,Institute of High Performance Manufacturing,Dalian University of Technology,Dalian 116024,China;Beijing Spacecrafts,China Academy of Space Technology,Beijing 100094,China;Weichai Power Co.,Ltd.,Weifang 261061,China)
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2021年第6期237-251,共15页
Acta Physica Sinica
基金
国家重点研发计划(批准号:2018YFA0703400)资助的课题.
关键词
原子级表面加工
化学机械抛光
绿色环保
作用机理
fabrication of atomically precision surface
chemical mechanical polishing
green and environmental protection
influence mechanism
