Shinobu Saito scite author profile

Shinobu Saito

5Publications

92Citation Statements Received

14Citation Statements Given

How they've been cited

157

How they cite others

Affiliations

NTT (Japan), NEC (Japan), Renesas Electronics (Japan)

Publications

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High performance Cu interconnects with damage-less full molecular-pore-stack (MPS) SiOCH for 32nm-node LSIs and beyond

Ueki¹,

Tagami²,

Ito³

et al. 2008

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Damage-less full molecular-pore-stack SiOCH (MPS) / Cu interconnect is developed to reduce effective k-value (k eff ).MPS with high endurance against plasma processes is introduced into both via and trench dielectrics without hard mask (HM). Low friction slurry and chemical modification of MPS surface by He-plasma treatment suppress defect generation during direct CMP of the MPS surface. The full-MPS interconnect with low-k (k=3.1) cap demonstrates 10% lower inter-line capacitance and 34% lower inter-layer capacitance than the full-SiOCH (k=3.0) interconnect with SiCN-cap (k=4.9). The effective k-value k eff reduces to 2.67 for the damage-less full MPS structure which is applicable to 32nm LSIs and beyond.

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MRAM Cell Technology for Over 500-MHz SoC

Sakimura

Sugibayashi

Honda

et al. 2007

IEEE J. Solid-State Circuits

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Highly reliable BEOL-transistor with oxygen-controlled InGaZnO and Gate/Drain offset design for high/low voltage bridging I/O operations

Kaneko

Inoue

Saito

et al. 2011

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Comprehensive Chemistry Designs in Porous SiOCH Film Stacks and Plasma Etching Gases for Damageless Cu Interconnects in Advanced ULSI Devices

Hayashi

Ohtake

Kawahara

et al. 2008

IEEE Trans. Semicond. Manufact.

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High performance Cu dual-damascene (DD) interconnects without process-induced damages are developed in porous SiOCH stacks with the effective dielectric constant ( e ) of 2.95, in which a carbon (C)-rich molecular-pore-stacking (MPS) SiOCH film ( = 2 5) is stacked directly on an oxygen (O)-rich porous SiOCH ( = 2 7) film. The novel etch-stopperless structure is obtained by comprehensive chemistry design of C/O ratios in the SiOCH stack and the etching plasma of an Ar N 2 CF 4 O 2 gas mixture technique. Large hydrocarbons attached to hexagonal silica backbones in the MPS-SiOCH prevent the Si-CHx bonds from oxidation during O 2 -plasma ashing, suppressing the C-depleted damage area at the DD sidewall. Combining multiresist mask process with immersion ArF photolithography, strictly controlled Cu DD interconnects with 180-nm pitched lines and 65-nm-diameter vias are obtained successfully, ready for the 300-mm fabrication.

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The solution of over-erase problem controlling poly-Si grain size-modified scaling principles for flash memory

Muramatsu

Kubota

Nishio

et al.

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Shinobu Saito

High performance Cu interconnects with damage-less full molecular-pore-stack (MPS) SiOCH for 32nm-node LSIs and beyond

MRAM Cell Technology for Over 500-MHz SoC

Highly reliable BEOL-transistor with oxygen-controlled InGaZnO and Gate/Drain offset design for high/low voltage bridging I/O operations

Comprehensive Chemistry Designs in Porous SiOCH Film Stacks and Plasma Etching Gases for Damageless Cu Interconnects in Advanced ULSI Devices

The solution of over-erase problem controlling poly-Si grain size-modified scaling principles for flash memory

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