Enhancing the Oxygen Plasma Resistance of Low-k Methylsilsesquioxane  by H<sub>2</sub> Plasma Treatment

Liu, Po–Tsun; Chang, Ting‐Chang; Mor, Y. S.; Sze, Simon M.

doi:10.1143/jjap.38.3482

Cited by 65 publications

(29 citation statements)

References 32 publications

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“…It is thought that high contents of Si-O bond that has high thermochemical energy [10] in the low-k SiCOH films can contribute to decrease of leakage current pass. Furthermore, the H 2 plasma treatment can provide hydrogen radicals to passivate the surface and bulk of porous films and reduce the defect content [6], which can help reducing leakage current.…”

Section: Resultsmentioning

confidence: 99%

“…The effect of hydrogen treatment on the dielectric constant reducing was observed and explained in Refs. [6,7], where it was suggested that hydrogen plasma could enhance the thermal stability and increase the porosity of the films, resulting in lower k values. The He/H 2 plasma induced smaller amount of shrinkage on the film compared to oxygen, nitrogen, ammonia, etc.…”

Section: Methodsmentioning

confidence: 99%

“…On the other hand, depending on the various gases (e.g. ammonia, oxygen, nitrogen, hydrogen, helium, and mixture gases) and plasma conditions, plasma treatment could be used to improve electric and mechanical properties of the low-k SiCOH film [6,10]. It is needed to develop a post-deposition plasma treatment method, which can be easily In microelectronics industry, integration of the low dielectric constant (low-k) material films is a continuing issue due to the decreasing device feature size.…”

Section: Introductionmentioning

confidence: 99%

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Effects of He (90%)/H2 (10%) plasma treatment on electric properties of low dielectric constant SiCOH films

Kim

Jung

et al. 2012

Materials Research Bulletin

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effects of He (90%)/H2 (10%) plasma treatment on electric properties of low dielectric constant SiCOH films

Kim

Jung

et al. 2012

Materials Research Bulletin

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“…MSZ, whose dielectric constant is ∼ 2.6, is methyl-silsesquioxane (MSQ)-Thin Solid Films 515 (2006) 1117 -1120 www.elsevier.com/locate/tsf like structure derived from methyl-silsesquioxane. It has high transmittance in the range of visible light, good planarization properties and good electrical properties [8,9]. The thickness of MSZ could be controlled by tuning the speed of spin coater.…”

Section: Introductionmentioning

confidence: 99%

Application of the low dielectric methyl-silsesquiazane (MSZ) as a passivation layer on TFT-LCD

Chang

Liu

et al. 2006

Thin Solid Films

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“…However, the dielectric properties of this nanoporous material are seriously degraded during photoresist removal-an important microelectronic fabrication step that involves O 2 ashing/etching. 6,7 This process also removes the hydrophobic CH x groups from exposed surfaces ͑pore surface as well͒ of the film and allowing the formation of silanol ͑Si-OH͒ groups. As a result, the hydrophillic Si-OH enhances physical adsorption of moisture upon air exposure and increases the dielectric constant.…”

mentioning

confidence: 99%

Electric field and temperature-induced removal of moisture in nanoporous organosilicate films

Biswas

Lubguban

Gangopadhyay

2004

Applied Physics Letters

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The effects of bias-temperature-stress ͑BTS͒ or simply temperature-stress ͑TS͒ on nanoporous low-k methylsilsesquioxane films are studied. Initially, the as-given and O 2 ashed/etched films exhibit physical adsorption of moisture as revealed from the electrical behavior of the samples after 15 days. The temperature stressing at 170°C volatilized the adsorbed water but is unable to remove chemisorb and hydrophillic Si-OH groups. As a result, the TS films remain susceptible to moisture. BTS at 170°C also removes adsorbed water. More important, the surfaces under the metal-insulator structure were dehydroxylated by breaking the chemisorb Si-OH group facilitating the formation of siloxane bonds that prevents adsorption of moisture even after 60 days. © 2004 American Institute of Physics. ͓DOI: 10.1063/1.1757019͔As device dimensions shrink, the struggle to find ultralow dielectric constant ͑k͒ materials for future generation integrated circuits ͑ICs͒ continues unabated. Although many low-k materials in the range of 2.0-4.0 1-5 have been studied, integration problems and issues like moisture adsorption brought numerous reliability concerns. Methylsilsesquixane ͑MSQ͒ is an attractive candidate for replacement of SiO 2 in future generation ICs because of its inherent low-k ͑2.8͒ and good thermal stability. The introduction of nanopores to MSQ provides extendibility of dielectric constant to values lower than 2.0. However, the dielectric properties of this nanoporous material are seriously degraded during photoresist removal-an important microelectronic fabrication step that involves O 2 ashing/etching. 6,7 This process also removes the hydrophobic CH x groups from exposed surfaces ͑pore surface as well͒ of the film and allowing the formation of silanol ͑Si-OH͒ groups. As a result, the hydrophillic Si-OH enhances physical adsorption of moisture upon air exposure and increases the dielectric constant. This causes device reliability problems. Device instabilities could occur causing an increase in leakage currents that may lead to breakdown of the dielectric film.Current work focuses on studying the effects of biastemperature-stress ͑BTS͒ or temperature-stress ͑TS͒ of nanoporous MSQ. BTS has been a very effective method to detect device instabilities like the presence of mobile ions or diffusion of metal ions in the dielectric. The time-dependent moisture adsorption and thermal stability of as-given and O 2 ashed/etched MSQ films are also investigated. This study will attempt to explain the susceptibility of MSQ films to moisture after BTS or TS.The nanoporous MSQ films studied are courtesy of Tokyo Electron America ͑TEL͒. The as-given and O 2 ashed/ etched MSQ for electrical measurements have thicknesses of 390 and 280 nm, respectively. To fabricate metalinsulator-semiconductor ͑MIS͒ devices, metal dots of titanium with an area 4.9ϫ10 Ϫ4 cm 2 were sputter-deposited. The capacitance-voltage (C -V) measurements were carried out on HP4284 LCR meter while current-voltage measurements were carried out on Keithly 2400 Sourcemet...

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Enhancing the Oxygen Plasma Resistance of Low-k Methylsilsesquioxane by H₂ Plasma Treatment

Cited by 65 publications

References 32 publications

Effects of He (90%)/H2 (10%) plasma treatment on electric properties of low dielectric constant SiCOH films

Effects of He (90%)/H2 (10%) plasma treatment on electric properties of low dielectric constant SiCOH films

Application of the low dielectric methyl-silsesquiazane (MSZ) as a passivation layer on TFT-LCD

Electric field and temperature-induced removal of moisture in nanoporous organosilicate films

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Enhancing the Oxygen Plasma Resistance of Low-k Methylsilsesquioxane by H2 Plasma Treatment

Cited by 65 publications

References 32 publications

Effects of He (90%)/H2 (10%) plasma treatment on electric properties of low dielectric constant SiCOH films

Effects of He (90%)/H2 (10%) plasma treatment on electric properties of low dielectric constant SiCOH films

Application of the low dielectric methyl-silsesquiazane (MSZ) as a passivation layer on TFT-LCD

Electric field and temperature-induced removal of moisture in nanoporous organosilicate films

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Enhancing the Oxygen Plasma Resistance of Low-k Methylsilsesquioxane by H₂ Plasma Treatment