• Title/Summary/Keyword: TiN/${TiSi}_{2}$ composition

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Effects of the thin SiO$_{2}$ film at the Ti-Si interface on the formation of TiN/TiS$i_2$ bilayer (Ti-Si 계면의 얇은 산화막이 TiN/TiS$i_2$ 이중구조막 형성에 미치는 영향)

  • 이철진;성만영;성영권
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.45 no.2
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    • pp.242-248
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    • 1996
  • The properties of TiN/TiSi$_{2}$ bilayer formed by a rapid thermal annealing is investigated when thin SiO$_{2}$ film exists at the Ti-Si interface. The competitive reaction for the TiN/TiSi_2 bilayer occurs above 600 .deg. C. The thickness of the TiSi$_{2}$ layer decreases with increasing SiO$_{2}$ film thickness and also decreases with increasing anneal temperture When the competitive reaction for the TiN/TiSi$_{2}$ bilayer is occured by rapid thermal annealing, the composition of TiN layer represents TiN$_{x}$O$_{y}$ due to the SiO$_{2}$ layer at the Ti-Si interface but the structures of the TiN and TiSi$_{2}$ layers were not changed.d.d.

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A Study on the Properties of TiN/${TiSi}_{2}$ Bilayer by a Rapid Thermal Anneal in ${NH}_{3}$ Ambient (${NH}_{3}$ 분위기에서 급속열처리에 의한 TiN/${TiSi}_{2}$ 이중구조막의 특성에 대한 고찰)

  • 이철진;성영권
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.41 no.8
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    • pp.869-874
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    • 1992
  • The physical and electrical properties of TiN/TiSiS12T bilayer were studied. The TiN/TiSiS12T bilayer was formed by rapid thermal anneal in NHS13T ambient after the Ti film was deposited on silicon substrate. The Ti film reacts with NHS13T gas to make a TiN layer at the surface and reacts with silicon to make a TiSiS12T layer at the interface respectively. It was found that the formation of TiN/TiSiS12T bilayer depends on RTA temperature. In this experiment, competitive reaction for TiN/TiSiS12T bilayer occured above $600^{\circ}C$. Ti-rich TiNS1xT layer and Ti-rich TiSiS1xT layer and Ti-rich TiSiS1xT layer were formed at $600^{\circ}C$. stable structure TiN layer TiSiS12T layer which has CS149T phase and CS154T phase were formed at $700^{\circ}C$. Both stable TiN layer and CS154T phase TiSiS12T layer were formed at 80$0^{\circ}C$. The thickness of TiN/TiSiS12T bilayer was increased as the thickness of deposited Ti film increased.

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Effects of the thin $SiO_2$ film on the formation of $TiN/TiSi_2$ bilayer formed by rapid thermal annealing (급속열처리에 의한 $TiN/TiSi_2$ 이중구조막 혈성에 대한 Ti-Si 계면의 얇은 산화막의 영향)

  • Lee, Cheol-Jin;Sung, Han-Young;Sung, Yung-Kwon
    • Proceedings of the KIEE Conference
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    • 1994.07b
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    • pp.1223-1225
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    • 1994
  • The properties of $TiN/TiSi_2$ bilayer formed by a rapid thermal anneal ing is investigated when thin $SiO_2$ film exists at the Ti-Si interface. The competitive reaction for the $TiN/TiSi_2$ bilayer occurs above $600^{\circ}C$. The thickness of the $TiSi_2$ layer decreases with increasing $SiO_2$ film thickness while the TiN layer increases at the competitive reaction. The composition of TiN layer is changed to the $TiN_xO_y$ film due to the thin $SiO_2$ layer at the Ti-Si interface while the structure of the TiN and $TiSi_2$ layers was not changed.

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Characteristics of $TiN/TiSi_2$ bilayer by $BF_2$ dopant at Si substrate (기판 실리콘의 $BF_2$ 불순물 원자에 의한 $TiN/TiSi_2$ bilayer의 특성)

  • Lee, C.J.;Park, J.S.;You, H.S.;Sung, Y.K.
    • Proceedings of the KIEE Conference
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    • 1992.07b
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    • pp.835-838
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    • 1992
  • The $TiN/TiSi_2$ bilayer has been studied for contact barrier layer at ULSI recently. The $TiN/TiSi_2$ bilayer was formed by RTA in $NH_3$ ambient simultaneously after the Ti film was deposited on silicon substrate. In this paper, properties of $TiN/TiSi_2$ bilayer was evaluated according to $BF_2$ dopant concentration and dopant redistribution in $TiN/TiSi_2$ bilayer was also analyzed. In this experiment, the composition and structure of $TiN/TiSi_2$ bilayer were constant even though dopant concentration increased but silicide growth rate decreased. Boron atoms were redistributed within TiN film and at $TiSi_2Si$ interface during the bilayer formation.

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A study of Compositional range of Ti-Si-N films for the ULSI diffusion barrier layer (ULSI 확산억제막으로 적합한 Ti-Si-N의 조성 범위에 관한 연구)

  • 박상기;강봉주;양희정;이원희;이은구;김희재;이재갑
    • Journal of the Korean Vacuum Society
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    • v.10 no.3
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    • pp.321-327
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    • 2001
  • Ti-Si-N films obtained by using RF reactive sputtering of targets with various Ti/Si ratios in a $N_2(Ar+N_2)$ gas mixture have been investigated in terms of films resistivity and diffusion barrier performance. The chemical bonding state of Si in the Ti-Si-N film which contained a higher Si content was in the form of amorphous $Si_3N_4$, producing increased film resistivity with increased $N_2$flow rate. Lowering the Si content in the deposited Ti-Si-N film favored the formation of crystalline TiN even at low $N_2$flow rates, and leads to low film resistivity. In addition increasing the N content led to Ti-Si-N films having a higher density and compressive stress, suggesting that the N content in the films appear to be one of the most important factors affecting the diffusion barrier characteristics. Consequently, we proposed the optimum composition in the range of 29~49 at.% of Ti, 6~20 at.% of Si, and 45~55 at.% of N for the Ti-Si-N films having both low resistivity and excellent diffusion barrier performance.

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High-temperature Oxidation of Nano-multilayered TiAlSiN Filems (나노 다층 TiAlSiN 박막의 고온 산화)

  • Lee, Dong-Bok;Kim, Min-Jeong
    • Proceedings of the Korean Institute of Surface Engineering Conference
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    • 2016.11a
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    • pp.189-189
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    • 2016
  • In this study, the Al-rich AlTiSiN thin films that consisted of TiN/AlSiN nano-multilayers were deposited on the steel substrate by magnetron sputtering, and their high-temperature oxidation behavior was investigated, which has not yet been adequately studied to date. Since the oxidation behavior of the films depends sensitively on the deposition method and deposition parameters which affect their crystallinity, composition, stoichiometry, thickness, surface roughness, grain size and orientation, the oxidation studies under various conditions are imperative. AlTiSiN nano-multilayer thin films were deposited on a tool steel substrate, and their oxidation behavior of was investigated between 600 and $1000^{\circ}C$ in air. Since the amount of Al which had a high affinity for oxygen was the largest in the film, an ${\alpha}-Al_2O_3-rich$ scale formed, which provided good oxidation resistance. The outer surface scale consisted of ${\alpha}-Al_2O_3$ incoporated with a small amount of Ti, Si, and Fe. Below this outer surface scale, a thin ($Al_2O_3$, $TiO_2$, $SiO_2$)-intermixed scale formed by the inwardly diffusing oxygen. The film oxidized slower than the $TiO_2-forming$ kinetics and TiN films, but faster than ${\alpha}-Al_2O_3-forming$ kinetics. During oxidation, oxygen from the atmosphere diffused inwardly toward the reaction front, whereas nitrogen and the substrate element of iron diffused outwardly to a certain extent.

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A Study on Microstructure and Tribological Behavior of Superhard Ti-Al-Si-N Nanocomposite Coatings (초고경도 Ti-Al-Si-N 나노복합체 코팅막의 미세구조 및 트라이볼로지 거동에 관한 연구)

  • Heo, Sung-Bo;Kim, Wang Ryeol
    • Journal of Surface Science and Engineering
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    • v.54 no.5
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    • pp.230-237
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    • 2021
  • In this study, the influence of silicon contents on the microstructure, mechanical and tribological properties of Ti-Al-Si-N coatings were systematically investigated for application of cutting tools. The composition of the Ti-Al-Si-N coatings were controlled by different combinations of TiAl2 and Ti4Si composite target powers using an arc ion plating technique in a reactive gas mixture of high purity Ar and N2 during depositions. Ti-Al-Si-N films were nanocomposite consisting of nanosized (Ti,Al,Si)N crystallites embedded in an amorphous Si3N4/SiO2 matrix. The instrumental analyses revealed that the synthesized Ti-Al-Si-N film with Si content of 5.63 at.% was a nanocomposites consisting of nano-sized crystallites (5-7 nm in dia.) and a three dimensional thin layer of amorphous Si3N4 phase. The hardness of the Ti-Al-Si-N coatings also exhibited the maximum hardness value of about 47 GPa at a silicon content of ~5.63 at.% due to the microstructural change to a nanocomposite as well as the solid-solution hardening. The coating has a low friction coefficient of 0.55 at room temperature against an Inconel alloy ball. These excellent mechanical and tribological properties of the Ti-Al-Si-N coatings could help to improve the performance of machining and cutting tool applications.

Microstructure and Tribological Properties of Ti-Si-C-N Nanocomposite Coatings Prepared by Filtered Vacuum Arc Cathode Deposition

  • Elangovan, T.;Kim, Do-Geun;Lee, Seung-Hun;Kim, Jong-Kuk
    • Proceedings of the Korean Vacuum Society Conference
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    • 2011.02a
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    • pp.54-54
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    • 2011
  • The demand for low-friction, wear and corrosion resistant components, which operate under severe conditions, has directed attentions to advanced surface engineering technologies. The Filtered Vacuum Arc Cathode Deposition (FVACD) process has demonstrated atomically smooth surface at relatively high deposition rates over large surface areas. Preparation of Ti-Si-C-N nanocomposite coatings on (100) Si and stainless steel substrates with tetramethylsilane (TMS) gas pressures to optimize the film preparation conditions. Ti-S-C-N coatings were characterized using X-ray diffraction, X-ray photoelectron spectroscopy, transmission electron microscopy, nanoindentation, Rockwell C indentation and ball-on-disk wear tests. The XRD results have confirmed phase formation information of TiSiCN coatings, which shows mixing of TiN and TiC structure, corresponding to (111), (200) and (220) planes of TiCN. The chemical composition of the film was investigated by XPS core level spectra. The binding energy of the elements present in the films was estimated using XPS measurements and it shows present of elemental information corresponding to Ti2p, N1s, Si 2p and C1. Film hardness and elastic modulus were measured with a nano-indenter, and film hardness reached 40 GPa. Tribological behaviors of the films were evaluated using a ball-on-disk tribometer, and the films demonstrated properties of low-friction and good wear resistance.

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Thermal Stability of Ti-Si-N as a Diffusion Barrier (Cu와 Si간의 확산방지막으로서의 Ti-Si-N에 관한 연구)

  • O, Jun-Hwan;Lee, Jong-Mu
    • Korean Journal of Materials Research
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    • v.11 no.3
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    • pp.215-220
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    • 2001
  • Amorphous Ti-Si-N films of approximately 200 and 650 thickness were reactively sputtered on Si wafers using a dc magnetron sputtering system at various $N_2$/Ar flow ratios. Their barrier properties between Cu (750 ) and Si were investigated by using sheet resistance measurements, XRD, SEM, RBS, and AES depth profiling focused on the effect of the nitrogen content in Ti-Si-N thin film on the Ti-Si-N barrier properties. As the nitrogen content increases, first the failure temperature tends to increase up to 46 % and then decrease. Barrier failure seems to occur by the diffusion of Cu into the Si substrate to form Cu$_3$Si, since no other X- ray diffraction intensity peak (for example, that for titanium silicide) than Cu and Cu$_3$Si Peaks appears up to 80$0^{\circ}C$. The optimal composition of Ti-Si-N in this study is $Ti_{29}$Si$_{25}$N$_{46}$. The failure temperatures of the $Ti_{29}$Si$_{25}$N$_{465}$ barrier layers 200 and 650 thick are 650 and $700^{\circ}C$, respectively.ely.

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Syntheses and properties of Ti2AlN MAX-phase films

  • Zhang, Tengfei;Myoung, Hee-bok;Shin, Dong-woo;Kim, Kwang Ho
    • Journal of Ceramic Processing Research
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    • v.13 no.spc1
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    • pp.149-153
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    • 2012
  • Ti2AlN MAX-phase films were synthesized through the post-annealing process of as-deposited Ti-Al-N films. Near amorphous or quasi-crystalline ternary Ti-Al-N films were deposited on Si and Al2O3 substrates by sputtering a Ti2AlN MAX-phase target at room temperature, 300 ℃ and 450 ℃, respectively. A vacuum annealing of those films at 800 ℃ for 1 hour changed those films to crystalline Ti2AlN MAX-phase. The polycrystalline Ti2AlN MAX-phase films exhibited very excellent oxidation resistance due to its characteristics microstructure (nanolaminates), which has potential applications for high-temperature protective coatings. The microstructure and composition of Ti2AlN MAX-phase films were investigated using with a variety of characterization tools.