2016
DOI: 10.1149/2.0161609jss
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High-Performance Metal Hard Mask Process Using Fiber-Textured TiN Film for Cu Interconnects

Abstract: One of the most challenging issues in the metal hard mask process for copper interconnects is controlling the residual stress in TiN mask. The relationship between the residual stress and the feature size of the trench was investigated using a mechanical simulation. It was found that the trench deformation at a specific pattern due to the residual compressive stress in TiN film resulted in void formation in Cu. To overcome this problem, the correlation between the residual stress and the film properties of TiN… Show more

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Cited by 2 publications
(5 citation statements)
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“…In this test, TiN film which had a fiber-textured structure was used for a hard mask. 36 The residual compressive stress in the fiber-textured TiN film was about 600 MPa and it was enough low to suppress the wiggling phenomenon. 41 The ratio of Ti and N in TiN film was almost 1:1 and TiN contained O with the concentration of 8.0 at.%.…”
Section: Resultsmentioning
confidence: 98%
See 2 more Smart Citations
“…In this test, TiN film which had a fiber-textured structure was used for a hard mask. 36 The residual compressive stress in the fiber-textured TiN film was about 600 MPa and it was enough low to suppress the wiggling phenomenon. 41 The ratio of Ti and N in TiN film was almost 1:1 and TiN contained O with the concentration of 8.0 at.%.…”
Section: Resultsmentioning
confidence: 98%
“…[33][34][35] We have studied the MHM process using the low stress TiN mask which had a fiber-textured structure for the perfect Cu filling and it has been demonstrated to be high performance. 36 However, the reports on the integration of lower k-value dielectric materials (k < 2.5) with the MHM self-aligned via process have been limited, and the complete process including reliability performance in chip packaging has not been reported.…”
Section: High-performance Extremely Low-k Film Integration Technologymentioning
confidence: 99%
See 1 more Smart Citation
“…225,226 This approach was adopted primarily to reduce patterning induced degradation of the low-k ILD dielectric constant and enable etching of high aspect ratio features. 227,228 The success of the approach was based primarily on the ability to selectively etch the overlying metal hard mask relative to the low-k ILD 227 and the metal hard mask to shield and protect the underlying low-k ILD from the various subsequent damaging plasmas used to perform the pattern transfer etch and cleans (see Fig. 10).…”
Section: Spacers and Hard Masks -The Disappearing Dielectricsmentioning
confidence: 99%
“…10). 228 Titanium nitride (TiN) was commonly selected for this application due to its acceptable transparency, 229 high etch selectivity relative to other dielectric hard mask materials such as C:H and SiC:H, 230 and the ability to be removed in subsequent post etch wet cleans. 226,227 However, traditional single pass dry optical lithography methods utilizing 193 nm wavelengths became incapable of printing the finer dimensions needed for < 45 nm technologies and the lack of EUV readiness forced the transition to both immersion lithography [231][232][233][234] and pitch division/double patterning methods.…”
Section: Spacers and Hard Masks -The Disappearing Dielectricsmentioning
confidence: 99%