웨이퍼 레벨 3D Integration을 위한 Ti/Cu CMP 공정 연구

Sarah Eunkyung Kim; Sung Dong Kim

doi:10.6117/kmeps.2012.19.3.037

웨이퍼 레벨 3D Integration을 위한 Ti/Cu CMP 공정 연구

Translated title of the contribution: Ti/Cu CMP process for wafer level 3D integration

Sarah Eunkyung Kim, Sung Dong Kim

Research output: Contribution to journal › Article › peer-review

Abstract

The wafer level stacking with Cu-to-Cu bonding becomes an important technology for high density DRAM stacking, high performance logic stacking, or heterogeneous chip stacking. Cu CMP becomes one of key processes to be developed for optimized Cu bonding process. For the ultra low-k dielectrics used in the advanced logic applications, Ti barrier has been preferred due to its good compatibility with porous ultra low-K dielectrics. But since Ti is electrochemically reactive to Cu CMP slurries, it leads to a new challenge to Cu CMP. In this study Ti barrier/Cu interconnection structure has been investigated for the wafer level 3D integration. Cu CMP wafers have been fabricated by a damascene process and two types of slurry were compared. The slurry selectivity to $SiO_2$ and Ti and removal rate were measured. The effect of metal line width and metal density were evaluated.

Translated title of the contribution	Ti/Cu CMP process for wafer level 3D integration
Original language	Korean
Pages (from-to)	37-41
Number of pages	5
Journal	마이크로전자 및 패키징학회지
Volume	19
Issue number	3
DOIs	https://doi.org/10.6117/kmeps.2012.19.3.037
State	Published - Sep 2012

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title = "웨이퍼 레벨 3D Integration을 위한 Ti/Cu CMP 공정 연구",

abstract = "The wafer level stacking with Cu-to-Cu bonding becomes an important technology for high density DRAM stacking, high performance logic stacking, or heterogeneous chip stacking. Cu CMP becomes one of key processes to be developed for optimized Cu bonding process. For the ultra low-k dielectrics used in the advanced logic applications, Ti barrier has been preferred due to its good compatibility with porous ultra low-K dielectrics. But since Ti is electrochemically reactive to Cu CMP slurries, it leads to a new challenge to Cu CMP. In this study Ti barrier/Cu interconnection structure has been investigated for the wafer level 3D integration. Cu CMP wafers have been fabricated by a damascene process and two types of slurry were compared. The slurry selectivity to \$SiO\_2\$ and Ti and removal rate were measured. The effect of metal line width and metal density were evaluated.",

author = "Kim, \{Sarah Eunkyung\} and Kim, \{Sung Dong\}",

year = "2012",

month = sep,

doi = "10.6117/kmeps.2012.19.3.037",

language = "Korean",

volume = "19",

pages = "37--41",

journal = "마이크로전자 및 패키징학회지",

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publisher = "한국마이크로전자및패키징학회",

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AU - Kim, Sung Dong

PY - 2012/9

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AB - The wafer level stacking with Cu-to-Cu bonding becomes an important technology for high density DRAM stacking, high performance logic stacking, or heterogeneous chip stacking. Cu CMP becomes one of key processes to be developed for optimized Cu bonding process. For the ultra low-k dielectrics used in the advanced logic applications, Ti barrier has been preferred due to its good compatibility with porous ultra low-K dielectrics. But since Ti is electrochemically reactive to Cu CMP slurries, it leads to a new challenge to Cu CMP. In this study Ti barrier/Cu interconnection structure has been investigated for the wafer level 3D integration. Cu CMP wafers have been fabricated by a damascene process and two types of slurry were compared. The slurry selectivity to $SiO_2$ and Ti and removal rate were measured. The effect of metal line width and metal density were evaluated.

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DO - 10.6117/kmeps.2012.19.3.037

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ER -

웨이퍼 레벨 3D Integration을 위한 Ti/Cu CMP 공정 연구

Abstract

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