Evaluation of planarization performance for a novel alkaline copper slurry under a low abrasive concentration

A novel alkaline copper slurry that possesses a relatively high planarization performance is investigated under a low abrasive concentration. Based on the action mechanism of CMP, the feasibility of using one type of slurry in copper bulk elimination process and residual copper elimination process,...

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Published inJournal of semiconductors Vol. 35; no. 11; pp. 173 - 178
Main Author 蒋勐婷 刘玉岭 袁浩博 陈国栋 刘伟娟
Format Journal Article
LanguageEnglish
Published 01.11.2014
Subjects
Abrasives
Copper
Planarization
Polishing
Semiconductors
Slurries
Tantalum
Wafers
去除速率
平坦化
性能
浆料
消除处理
碱性铜
磨料浓度
评估
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ISSN1674-4926
DOI10.1088/1674-4926/35/11/116002

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Summary:A novel alkaline copper slurry that possesses a relatively high planarization performance is investigated under a low abrasive concentration. Based on the action mechanism of CMP, the feasibility of using one type of slurry in copper bulk elimination process and residual copper elimination process, with different process parameters, was analyzed. In addition, we investigated the regular change of abrasive concentration effect on cop- per and tantalum removal rate and within wafer non-uniformity (WIWNU) in CMP process. When the abrasive concentration is 3 wt%, in bulk elimination process, the copper removal rate achieves 6125 ~/min, while WIWNU is 3.5%, simultaneously. In residual copper elimination process, the copper removal rate is approximately 2700 A/min, while WIWNU is 2.8%. Nevertheless, the tantalum removal rate is 0 A./min, which indicates that barrier layer isn't elinainated in residual copper elimination process. The planarization experimental results show that an excellent planarization performance is obtained with a relatively high copper removal rate in bulk elimination process. Meanwhile, atier residual copper elimination process, the dishing value increased inconspicuously, in a control- lable range, and the wafer surface roughness is only 0.326 nm (sq 〈 1 nm) alter polishing. By comparison, the planarization performance and surface quality of alkaline slurry show almost no major differences with two kinds of commercial acid slurries after polishing. All experimental results are conducive to research and improvement of alkaline slurry in the future.
Bibliography:alkaline slurry; abrasive concentration; planarization performance; acid slurry
11-5781/TN
Jiang Mengting, Liu Yuling, Yuan Haobo, Chen Guodong, Liu Weij uan( nstitute of Microelectronics, Hebei University of Technology, Tianj in 300130, China)
A novel alkaline copper slurry that possesses a relatively high planarization performance is investigated under a low abrasive concentration. Based on the action mechanism of CMP, the feasibility of using one type of slurry in copper bulk elimination process and residual copper elimination process, with different process parameters, was analyzed. In addition, we investigated the regular change of abrasive concentration effect on cop- per and tantalum removal rate and within wafer non-uniformity (WIWNU) in CMP process. When the abrasive concentration is 3 wt%, in bulk elimination process, the copper removal rate achieves 6125 ~/min, while WIWNU is 3.5%, simultaneously. In residual copper elimination process, the copper removal rate is approximately 2700 A/min, while WIWNU is 2.8%. Nevertheless, the tantalum removal rate is 0 A./min, which indicates that barrier layer isn't elinainated in residual copper elimination process. The planarization experimental results show that an excellent planarization performance is obtained with a relatively high copper removal rate in bulk elimination process. Meanwhile, atier residual copper elimination process, the dishing value increased inconspicuously, in a control- lable range, and the wafer surface roughness is only 0.326 nm (sq 〈 1 nm) alter polishing. By comparison, the planarization performance and surface quality of alkaline slurry show almost no major differences with two kinds of commercial acid slurries after polishing. All experimental results are conducive to research and improvement of alkaline slurry in the future.
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ISSN:1674-4926
DOI:10.1088/1674-4926/35/11/116002