• 제목/요약/키워드: Remote Plasma Oxidation

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Fabrication of Ultrathin Silicon Oxide Layer by Low Pressure Rapid Thermal Oxidation and Remote Plasma Oxidation (저압급속열산화법과 플라즈마확산산화법에 의한 실리콘 산화박막의 제조)

  • Ko, Cheon Kwang;Lee, Won Gyu
    • Korean Chemical Engineering Research
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    • v.46 no.2
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    • pp.408-413
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    • 2008
  • In this work, the use of LPRTO (low pressure rapid thermal oxidation) and remote plasma oxidation was evaluated for the preparation of ultra thin silicon oxide layer with less than 5 nm. The silicon oxide thickness grown by LPRTO was rapidly increased and saturated. The maximum thickness could be controlled at about 5 nm. As RF power and oxygen flow rate at a remote plasma oxidation increased, the behavior of oxide growth was almost the same as that of LPRTO. The oxide thickness of 4 nm was the maximum obtained by a remote plasma oxidation in this work. The quality of silicon oxide grown by LPRTO was comparable to the thermally grown conventional oxide.

Dependence of Low-frequency Noise and Device Characteristics on Initial Oxidation Method of Plasma-nitride Oxide for Nano-scale CMOSFET (Nano-CMOSFET를 위한 플라즈마-질화막의 초기 산화막 성장방법에 따른 소자 특성과 저주파 잡음 특성 분석)

  • Joo, Han-Soo;Han, In-Shik;Goo, Tae-Gyu;Yoo, Ook-Sang;Choi, Won-Ho;Choi, Myoung-Gyu;Lee, Ga-Won;Lee, Hi-Deok
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.20 no.1
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    • pp.1-7
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    • 2007
  • In this paper, two kinds of initial oxidation methods i.e., SLTO(Slow Low Temperature Oxidation: $700^{\circ}C$) and RTO(Rapid Thermal Oxidation: $850^{\circ}C$) are applied prior to the plasma nitridation for ultra thin oxide of RPNO (Remote Plasma Nitrided Oxide). It is observed that SLTO has superior characteristics to RTO such as lower SS(Sub-threshold Slope) and improved Ion-Ioff characteristics. Low frequency noise characteristics of SLTO also showed better than RTO both in linear and saturation regime. It is shown that flicker noise is dominated by carrier number fluctuation in the channel region. Therefore, SLTO is promising for nano-scale CMOS technology with ultra thin gate oxide.

A Study on the Removal of Cu Impurity on Si Substrate and Mechanism Using Remote Hydrogen Plasma (리모트 수소 플라즈마를 이용한 Si 기판 위의 Cu 불순물 제거)

  • Lee, Jong-Mu;Jeon, Hyeong-Tak;Park, Myeong-Gu;An, Tae-Hang
    • Korean Journal of Materials Research
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    • v.6 no.8
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    • pp.817-824
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    • 1996
  • Removal of Cu impurities on Si substrates using remote H-plasma was investigated. Si substrates were intentionally contaminated by 1ppm ${CuCI}_{2}$, standard chemical solution. To determine the optimal process condition, remote H-plasma cleaning was conducted varying the parameters of rf power, cleaning time and remoteness(the distance between the center of plasma and the surface of Si substrate). After remote H-plasma cleaning was conducted, Si surfaces were analysed by TXRF(total x-ray reflection fluorescence) and AFM(atomic force microscope). The concentration of Cu impurity was reduced by more than a factor of 10 and its RMS roughness was improved by more than 30% after remote H-plasma cleaning. TXRF analysis results show that remote H-plasma cleaning is effective in eliminating Cu impurity on Si surface when it is performed under the optimal process condition. AFM analysis results also verifies that remote H-plasma cleaning makes no damage to the Si surface. The deposition mechanism of Cu impurity may be explained by the redox potential(oxidation-reduction reaction potential) theory. Based on the XPS analysis results we could draw a conclusion that Cu impurities on the Si substrate are removed together with the oxide by a "lift-off" mechanism when the chemical oxide( which forms when Cu ions are adsorbed on the Si surface) is etched off by reactive hydrogen atoms.gen atoms.

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Hydrogen Plasma Characteristics for Photoresist Stripping Process in a Cylindrical Inductively Coupled Plasma

  • Yang, Seung-Kook;Cho, Jung Hee;Lee, Seong-Wook;Lee, Chang-Won;Park, Sang-Jong;Chae, Hee-Sun
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.13 no.4
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    • pp.387-394
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    • 2013
  • As the feature size of integrated circuits continues to decrease, the challenge of achieving an oxidation-free exposed layer after photoresist (PR) stripping is becoming a critical issue for semiconductor device fabrication. In this article, the hydrogen plasma characteristics in direct plasma and the PR stripping rate in remote plasma were studied using a $120{\Phi}$ cylindrical inductively coupled plasma source. E mode, H mode and E-H mode transitions were observed, which were defined by matching the $V_{rms}$ and total impedance. In addition, the dependence of the E-H mode transition on pressure was examined and the corresponding plasma instability regions were identified. The plasma density and electron temperature increased gradually under the same process conditions. In contrast, the PR stripping rate decreased with increasing proportion of $H_2$ gas in mixed $H_2/N_2$ plasma. The decrease in concentration of reactive radicals for the removal of PR with increasing $H_2$ gas flow rate suggests that NH radicals have a dominant effect as the main volatile product.

Etching Anisotropy Depending on the SiO2 and Process Conditions of NF3 / H2O Remote Plasma Dry Cleaning (NF3 / H2O 원거리 플라즈마 건식 세정 조건 및 SiO2 종류에 따른 식각 이방 특성)

  • Hoon-Jung Oh;Seran Park;Kyu-Dong Kim;Dae-Hong Ko
    • Journal of the Semiconductor & Display Technology
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    • v.22 no.4
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    • pp.26-31
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    • 2023
  • We investigated the impact of NF3 / H2O remote plasma dry cleaning conditions on the SiO2 etching rate at different preparation states during the fabrication of ultra-large-scale integration (ULSI) devices. This included consideration of factors like Si crystal orientation prior to oxidation and three-dimensional structures. The dry cleaning process were carried out varying the parameters of pressure, NF3 flow rate, and H2O flow rate. We found that the pressure had an effective role in controlling anisotropic etching when a thin SiO2 layer was situated between Si3N4 and Si layers in a multilayer trench structure. Based on these observations, we would like to provide further guidelines for implementing the dry cleaning process in the fabrication of semiconductor devices having 3D structures.

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