• Title/Summary/Keyword: VLS mechanism

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Growth of SiC nanowires by SLS growth mechanism (SLS 성장방법에 의한 SiC 나노와이어의 성장)

  • 노대호;김재수;변동진;진정근;김나리;양재웅
    • Proceedings of the Materials Research Society of Korea Conference
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    • 2003.11a
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    • pp.116-116
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    • 2003
  • Most of all nano-structures, SiC had a high electrical conductivity and mechanical strengths ay high temperatures. So It was considered a useful materials for nanosized device materials and added materials for strength hardening. Much methods were developed for SiC nanowire and nanorods like CVD, carbothermal reduction, Laser ablation and CNT-confined reduction. These methods used the VLS (Vapor-Liquid-Solid) growth mechanism. In these experiments, SiC nanowire was grown by SLS (Sold-Liquid-Solid) growth mechanism used Graphite substrate, And we characterized its microstructure to compare with VLS growth mechanism.

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Synthesis of $\beta$-SiC Whiskers by the Carbothermal Reduction of Kaolin (카올린의 환원 열탄화법에 의한 베타 탄화규소 휘스커의 합성)

  • 오세정;류종화;조원승;최상욱
    • Journal of the Korean Ceramic Society
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    • v.35 no.12
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    • pp.1249-1256
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    • 1998
  • ${\beta}$-Silicon carbide(${\beta}$-SiC) whiskers could be synthesized by the carbothermal reduction of kaolin at tem-peratures between 1400 and 1500$^{\circ}C$. The whiskers were grown up to about 1150 of aspect ratio by VS mechanism (showing tapering tips) and to about 45 of that by VLS mechanism (showing round droplet tips) respectively. Hydrocarbon like methane in the reaction atmosphere promoted the formation of gaseous il-icon monoxide(SiO) from silicon dioxide(SiO2) and subsequently reacted with it to form whiskers. The for-mation of ${\beta}$-SiC whiskers increased with increasing carbon content(to 30 wt%) and reaction temperatures. The max. yield of ${\beta}$-SiC whiskers was 15% at 1500$^{\circ}C$ under 20%CH4/80%H2.

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Synthesis of Silicon Carbide Whiskers (II): Stacking Faults (탄화규소 휘스커의 (II): 적층결함)

  • 최헌진;이준근
    • Journal of the Korean Ceramic Society
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    • v.36 no.1
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    • pp.36-42
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    • 1999
  • Stacking faults in SiC whiskers grown by three different growth mechanisms; vapor-solid(VS), two-stage growth(TS), and vapor-liquid-solid (VLS) mechanism in the carbothermal reduction system were investigated by X-ray diffraction(XRD) and transmission electron microscopy (TEM). The content of stacking faults in SiC whiskers increased with decreasing the diameter of whiskers, i.e., the small diameter whiskers (<1 $\mu\textrm{m}$) grown by the VS, TS, and VLS mechanisms have heavy stacking faults whereas the large diameter whiskers(>2$\mu\textrm{m}$) grown by the VLS mechanism have little stacking faults. Heavy stacking faults of small diameter whiskers was probably due to the high specific lateral surface area of small diameter whiskers.

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Growth of SiC Nanowire Using Carbothermal Reduction Method (열탄화법을 사용한 탄화규소 나노와이어의 성장)

  • Rho, Dae-Ho;Kim, Jae-Soo;Byun, Dong-Jin;Yang, Jae-Woong;Kim, Na-Ri
    • Korean Journal of Materials Research
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    • v.13 no.10
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    • pp.677-682
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    • 2003
  • SiC nanowires were synthesized by carbothermal reduction using metal catalysts. Synthesized nanowires had mean diameters of 30∼50 nm and several $\mu\textrm{m}$ length. The kind of catalysts affects form of SiC nanowire because of difference of growth mechanisms. These differences were made by catalyst's physical property and relative activities to the source gas. Ni acted a conventional catalyst of VLS growth mechanism. But, Case of Fe, SiC nanowire was grown by stable VLS growth mechanism without relation of growth conditions. SiC nanowire was grown by two step growth model using Cr catalyst. Conversion ratios to the SiC nanowire were increased with growth conditions. Case of Cr, conversion ratio was about 45% that was higher than other catalyst used. This high conversion ratio was obtained by the addition VS growth to radial direction on the as-grown nanowires.

Synthesis of Single-Crystalline InSb Nanowires Using CVD Method and Study of Growth Mechanism in Open and Close System (CVD 방법을 이용한 단결정 InSb 나노와이어의 성장과 Open/Close 시스템에서의 반응 메커니즘 연구)

  • Kang, Eun Ji;Park, Yi-Seul;Lee, Jin Seok
    • Journal of the Korean Vacuum Society
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    • v.22 no.6
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    • pp.306-312
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    • 2013
  • Single-crystalline InSb nanowire was synthesized on $SiO_2$ wafer via vapor-liquid-solid (VLS) mechanism using chemical vapor deposition method. According to the source container system (open or close) which contain InSb powder and $SiO_2$ wafer, the single-crystalline InSb nanowires have different growth mechanisms. Structural characterization of the InSb nanowires was examined by scanning electron microscope (SEM). Composition of the nanowires was investigated using x-ray diffraction (XRD) and energy dispersive x-ray spectroscopy (EDS). This study demonstrates that length and diameter of the InSb nanowires are long and thick using open-boat system by VLS and additional vapor-solid (VS) mechanisms, because open-boat system can carry a large amount of vapor-phase InSb precursor than close-boat system.

Distance between source and substrate and growth mode control in GaN nanowires synthesis (Source와 기판 거리에 따른 GaN nanowires의 합성 mode 변화 제어)

  • Shin, T.I.;Lee, H.J.;Kang, S.M.;Yoon, D.H.
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.18 no.1
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    • pp.10-14
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    • 2008
  • We synthesized GaN nanowires with high quality using the vapor phase epitaxy technique. The GaN nanowires were obtained at a temperature of $950^{\circ}C$. The Ar and $NH_3$ flow rates were 1000 sccm and 50 sccm, respectively. The shape of the GaN nanowires was confirmed through FESEM analysis. We were able to conclude that the GaN nanowires synthesized via vapor-solid (VLS) mechanism when the source was closed to the substrate. On the other side, the VS mechanism changed to vapor-liquid-solid (VLS) as the source and the substrate became more distant. Therefore, we can suggest that the large amount of Ga source from initial growth interrupt the role of catalyst on the substrate.

Direct synthesis mechanism of amorphous $SiO_x$ nanowires from Ni/Si substrate (Ni/Si 기판을 사용하여 성장시킨 비결정질 $SiO_x$ 나노 와이어의 성장 메커니즘)

  • Song, W.Y.;Shin, T.I.;Lee, H.J.;Kim, H.;Kim, S.W.;Yoon, D.H.
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.16 no.6
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    • pp.256-259
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    • 2006
  • The amorphous $SiO_x$ nanowires were synthesized by the vapor phase epitaxy (VPE) method. $SiO_x$ nanowires were formed on silicon wafer of temperatures ranged from $800{\sim}1100^{\circ}C$ and nickel thin film was used as a catalyst for the growth of nanowires. A vapor-liquid-solid (VLS) mechanism is responsible for the catalyst-assisted amorphous $SiO_x$ nanowires synthesis in this experiment. The SEM images showed cotton-like nanostructure of free standing $SiO_x$ nanowires with the length of more than about $10{\mu}m$. The $SiO_x$ nanowires were confirmed amorphous structure by TEM analysis and EDX spectrum reveals that the nanowires consist of Si and O.

Growth and Characterization of P-type Doping for InAs Nanowires during Vapor-liquid-solid and Vapor-solid Growth Mechanism by MOCVD

  • Hwang, Jeongwoo;Kim, Myung Sang;Lee, Sang Jun;Shin, Jae Cheol
    • Proceedings of the Korean Vacuum Society Conference
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    • 2014.02a
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    • pp.328.2-328.2
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    • 2014
  • Semiconductor nanowires (NWs) have attracted research interests due to the distinct physical properties that can lead to variousoptical and electrical applications. In this paper, we have grown InAs NWs viagold (Au)-assisted vapor-liquid-solid (VLS) and catalyst-free vapor-solid (VS) mechanisms and investigated on the p-type doping profile of the NWs. Metal-organic chemical vapor deposition (MOCVD) is used for the growth of the NWs. Trimethylindium (TMIn) and arsine (AsH3) were used for the precursor and diethyl zinc (DEZn) was used for the p-type doping source of the NWs. The effectiveness of p-type doping was confirmed by electrical measurement, showing an increase of the electron density with the DEZn flow. The structural properties of the InAs NWs were examined using scanning electron microscopy (SEM) and transmission electron microscopy (TEM). In addition, we characterize atomic distribution of InAs NWs using energy-dispersive X-ray spectroscopy (EDX) analysis.

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