• Title/Summary/Keyword: TCP-CVD (Transformer Coupled Plasma Chemical Vapor Deposition)

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Deposition of SiO2 Thin Film for the Core of Planar Light-Wave-Guide by Transformer Coupled Plasma Chemical-Vapor-Deposition (TCP-CVD 장비를 활용한 광도파로용 Core-SiO2 증착)

  • Kim, Chang-Jo;Shin, Paik-Kyun
    • Journal of the Korean Vacuum Society
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    • v.19 no.3
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    • pp.230-235
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    • 2010
  • In this paper, we controlled the deposition rate and reflective index with process conditions that are TCP power, gas flow ratio and bias for optical properties of $SiO_2$ thin film using TCP-CVD equipment. We obtained a excellent $SiO_2$ thin film which has a excellent uniformity (<1 [%]), deposition rate (0.28 [${\mu}m$/ min]) and reflective index (1.4610-1.4621) within 4" wafer with process conditions ($SiH_4:O_2$=50 : 100 [sccm], TCP power 1 [kW], bias 200 [W]) at [$300^{\circ}C$].

Fabrication of Oxidative Thin Film with Process Conditions by Transformer Coupled Plasma Chemical Vapor Deposition (TCP-CVD법을 활용한 공정변수에 따른 산화막의 제작)

  • Gim, T.J.;Choi, Y.;Shin, P.K.;Park, G.B.;Shin, H.Y.;Lee, B.J.
    • Journal of the Korean Vacuum Society
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    • v.19 no.2
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    • pp.148-154
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    • 2010
  • We have fabricated $SiO_2$ oxidation thin films by TCP-CVD (transformer coupled plasma chemical vapor deposition) method for passivation layer of OLED (organic light emitting diode). The purpose of this paper is to control and estimate the deposition rate and refracive index characteristics with process parameters. They are power, gas condition, distance of source and substrate and process temperature. The results show that transmittance of thin films is over 90%, rapid deposition rate and stable reflective index from 1.4 to 1.5 at controled process conditions. They are $SiH_4$ : $O_2$ = 30 : 60 [sccm] gas condition, 70 [mm] distance of source and substrate, no-biased substrate and under 80 [$^{\circ}C$] process temperature.

A Study on the Silicon Nitride for the poly-Si Thin film Transistor (다결정 박막 트랜지스터 적용을 위한 SiNx 박막 연구)

  • 김도영;김치형;고재경;이준신
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.16 no.12S
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    • pp.1175-1180
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    • 2003
  • Transformer Coupled Plasma Chemical Vapor Deposited (TCP-CVD) silicon nitride (SiNx) is widely used as a gate dielectric material for thin film transistors (TFT). This paper reports the SiNx films, grown by TCP-CVD at the low temperature (30$0^{\circ}C$). Experimental investigations were carried out for the optimization o(SiNx film as a function of $N_2$/SiH$_4$ flow ratio varying ,3 to 50 keeping rf power of 200 W, This paper presents the dielectric studies of SiNx gate in terms of deposition rate, hydrogen content, etch rate and leakage current density characteristics lot the thin film transistor applications. And also, this work investigated means to decrease the leakage current of SiNx film by employing $N_2$ plasma treatment. The insulator layers were prepared by two step process; the $N_2$ plasma treatment and then PECVD SiNx deposition with SiH$_4$, $N_2$gases.

Application of Si3N4 Thin Film as a Humidity Protection Layer for Organic Light Emitting Diode (Si3N4 박막의 유기발광소자 수분침투 방지막으로의 응용)

  • Kim, Chang-Jo;Shin, Paik-Kyun
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.23 no.5
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    • pp.397-402
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    • 2010
  • In this paper, we studied WVTR(water vapor transmission rate) properties of $Si_3N_4$ thin film that was deposited using TCP-CVD (transformer coupled plasma chemical vapor deposition) method for the possibility of OLED(organic light emitting diode) encapsulation. Considering the conventional OLED processing temperature limit of below $80^{\circ}C$, the $Si_3N_4$ thin films were deposited at room temperature. The $Si_3N_4$ thin films were prepared with the process conditions: $SiH_4$ and $N_2$, as reactive gases; working pressure below 15 mTorr; RF power for TCP below 500 W. Through MOCON test for WVTR, we analyzed water vapor permeation per day. We obtained that WVTR property below 6~0.05 gm/$m^2$/day at process conditions. The best preparation condition for $Si_3N_4$ thin film to get the best WVTR property of 0.05 gm/$m^2$/day were $SiH_4:N_2$ gas flow rate of 10:200 sccm, working pressure of 10 mTorr, working distance of 70 mm, TCP power of 500 W and film thickness of 200 nm. respectively. The proposed results indicates that the $Si_3N_4$ thin film could replace metal or glass as encapsulation for flexible OLED.