Chemical vapor deposition of ultrathin Ta2O5 films using Ta[N(CH3)2]5

Son, Kirak; Mao, A. Y.; Sun, Yiyong; Kim, B. Y.; Liu, F.; Kamath, Arvind; White, John; Kwong, Dim‐Lee; Roberts, David A.; Vrtis, Raymond N.

doi:10.1063/1.121009

Cited by 46 publications

(24 citation statements)

References 22 publications

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“…This value is comparable to that of CVD Ta 2 O 5 using the same precursor and oxygen, which was grown at a much higher temperature, 450°C. 28 In a previous report, a lower leakage current density was reported for ALD Ta 2 O 5 from PDMAT and water ͑1 A/cm for 10-100 nm thick films͒, but direct comparison with our result is difficult since the exact thickness and annealing conditions were not described. 15 The leakage current density of our PE-ALD Ta 2 O 5 is ϳ8 ϫ 10 −7 A/cm 2 , which is about two orders of magnitude lower than that of thermal ALD.…”

Section: G192mentioning

confidence: 51%

Thermal and Plasma-Enhanced ALD of Ta and Ti Oxide Thin Films from Alkylamide Precursors

Maeng

Kim

2006

Electrochem. Solid-State Lett.

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We investigated the thermal and plasma-enhanced atomic layer deposition ͑PE-ALD͒ of tantalum and titanium oxides from representative alkylamide precursors, Ta͑NMe 2 ͒ 5 ͑pentakis͑dimethylamino͒Ta, PDMAT͒ and Ti͑NMe 2 ͒ 4 ͓tetrakis͑dimethylami-do͒Ti, TDMAT͔. ALD of Ta 2 O 5 by PDMAT with water or oxygen plasma produced pure Ta 2 O 5 films with good self-saturation growth characteristics. However, incomplete self-saturation was observed for TiO 2 ALD from TDMAT. The film properties including microstructure, chemical composition, and electrical properties are discussed focusing on the comparative studies between thermal and PE-ALD processes for both oxides. The results indicate that the PDMAT is a promising precursor for both thermal and PE-ALD of Ta 2 O 5 .Atomic layer deposition ͑ALD͒ is a gas-phase thin-film deposition method characterized by the alternate exposure of chemical species with self-limiting surface reactions, producing films with accurate thickness control, excellent conformality, and uniformity over large areas. 1 Due to these benefits, ALD is becoming one of the most promising thin-film deposition methods in the fabrication of nanoscale microelectronic devices, for which thickness controllability at atomic level and high conformality are required. 2 One of the critical issues for a successful ALD process is a proper selection of precursors and reactants. Among many metal precursors, alkylamide precursors have been widely used for ALD since they have suitable vapor pressure and Cl-and O-free ligands producing noncorrosive products and require relatively low growth temperatures.ALD of high-k dielectrics have been extensively studied using a variety of precursors and reactants. 3-6 As representative high k oxides, Ta 2 O 5 and TiO 2 have been studied for various applications including capacitor and gate dielectrics for the semiconductor industry and chemical sensors. 7,8 Although various precursors have been studied for ALD of Ta and Ti-based materials, 4,9-12 alkylamide precursors have been widely used for deposition of TaN 13 or TiN. 14 For example, plasma-enhanced ALD ͑PE-ALD͒ of TaN from ͑pentakis-͑dimethylamino͒Ta ͑PDMAT͒ and hydrogen plasma produced good quality TaN, showing very robust characteristics as a diffusion barrier for Cu interconnects. 13 However, the alkylamide precursors have rarely been used for deposition of Ta or Ti oxide, except in a couple of very recent reports. 15,16 This is quite contrary to other high-k materials such as ZrO 2 and HfO 2 , for which extensive studies have been reported by thermal and PE-ALD from various alkylamide precursors. 17-20 Especially, no comparative study between thermal and PE-ALD from alkylamide precursors for Ta and Ti oxides has been reported yet. In this study, we investigated the thermal and PE-ALD processes of both oxides using representative alkylamide precursors, Ta͑NMe 2 ͒ 5 ͓pentakis͑dimethylamino͒Ta, PDMAT͔ and Ti͑NMe 2 ͒ 4 ͓tetrakis͑dimethylamido͒Ti, TDMAT͔, which have the same dimethylamino ligands. The film properties including micros...

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Section: G192mentioning

confidence: 51%

Thermal and Plasma-Enhanced ALD of Ta and Ti Oxide Thin Films from Alkylamide Precursors

Maeng

Kim

2006

Electrochem. Solid-State Lett.

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“…1 Tantalum oxide has been extensively studied by many techniques: radio-frequency ͑rf͒ or reactive sputtering, 2-5 chemical vapor deposition ͑CVD͒, [6][7][8] and anodization of thin Ta films. 9,10 Different deposition methods can affect the structural and electrical properties of the Ta 2 O 5 films.…”

Section: Introductionmentioning

confidence: 99%

Electrical characteristics of thin Ta2O5 films deposited by reactive pulsed direct-current magnetron sputtering

Kim

Nielsen

Rymaszewski

et al. 2000

Journal of Applied Physics

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“…Experiments were carried out in a bench scale CVD reaction chamber (base pressureIx 10-8 torr) connected by a gate valve and sample transfer mechanism to an UHV XPS chamber (base pressure -8x10-10 torr) [9]. Prior to insertion in the film growth chamber, n-type Si(100) substrates were cleaned and handled as detailed in our previous work [9].…”

Section: Methodsmentioning

confidence: 99%

“…Prior to insertion in the film growth chamber, n-type Si(100) substrates were cleaned and handled as detailed in our previous work [9]. Ta205 films were deposited by Ta(N(CH3)2)5 + 02 using N2 as the carrier gas.…”

Section: Methodsmentioning

confidence: 99%

Study of Thermal Stability of Cvd Ta₂0₅/Si Interface

et al. 1999

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Chemical vapor deposition of ultrathin Ta2O5 films using Ta[N(CH3)2]5

Cited by 46 publications

References 22 publications

Thermal and Plasma-Enhanced ALD of Ta and Ti Oxide Thin Films from Alkylamide Precursors

Thermal and Plasma-Enhanced ALD of Ta and Ti Oxide Thin Films from Alkylamide Precursors

Electrical characteristics of thin Ta2O5 films deposited by reactive pulsed direct-current magnetron sputtering

Study of Thermal Stability of Cvd Ta₂0₅/Si Interface

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Chemical vapor deposition of ultrathin Ta2O5 films using Ta[N(CH3)2]5

Cited by 46 publications

References 22 publications

Thermal and Plasma-Enhanced ALD of Ta and Ti Oxide Thin Films from Alkylamide Precursors

Thermal and Plasma-Enhanced ALD of Ta and Ti Oxide Thin Films from Alkylamide Precursors

Electrical characteristics of thin Ta2O5 films deposited by reactive pulsed direct-current magnetron sputtering

Study of Thermal Stability of Cvd Ta205/Si Interface

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Study of Thermal Stability of Cvd Ta₂0₅/Si Interface