Influence of raw powder size, reaction temperature, and soaking time on synthesis of SiC/SiO2 coaxial nanowires via thermal evaporation

Khongwong, Wasana; Imai, Masamitsu; Yoshida, Katsumi; Yano, Toyohiko

doi:10.2109/jcersj2.117.439

Cited by 14 publications

(14 citation statements)

References 30 publications

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“…3, and five diffraction peaks could be identified as (1 1 1), (2 0 0), (2 2 0), (3 1 1) and (2 2 2) reflections of ␤-SiC without any other impurities. From the transmission electron microscope (TEM) observation, and Fourier-transform infrared spectroscopy (FT-IR) characterizations in our previous work [22], it was confirmed that the SiCNWs produced by this process were core-shell type nanowires those had a single crystal ␤-SiC core and low-crystalline SiO 2 shell.…”

Section: Resultsmentioning

confidence: 62%

“…Silicon powder (average particle size 5 m, 99.99% purity, Kojundo Chemical Laboratory Co., Ltd., Japan) was pre-oxidized in air at 800 • C for 1 h to increase the oxygen content in the raw powder as mentioned in the previous research [22]. Oxidized silicon powder was placed in a mullite boat which was covered with an alumina fiber net (3025-T Standard Woven Fabric, Nitivy Co., Ltd., Japan), and was carefully put in the center of a mullite tube furnace as schematically shown in Fig.…”

Section: Synthesis and Characterization Of Sicnwsmentioning

confidence: 99%

“…These methods require special equipments and complicated procedures that make the production cost very high, and also need some metal catalysts, which reduce the purity and then degrade the crucial properties of SiCNWs. Thermal evaporation method for the synthesis of SiCNWs was developed by Khongwong et al [21,22]. Silicon powder and methane gas (CH 4 ) were used in this method as sources of Si and C, respectively, while without using any metal catalyst.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Exhaust gas analysis and formation mechanism of SiC nanowires synthesized by thermal evaporation method

Jiraborvornpongsa

Enomoto

Imai

et al. 2014

Journal of Asian Ceramic Societies

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Silicon carbide nanowires (SiCNWs) are a set of promising reinforcement materials due to their superior properties. However, formation mechanism of the SiCNWs synthesized by the thermal evaporation method without metal catalyst is still unclear. To understand the formation mechanism, SiCNWs were synthesized by the thermal evaporation method at 1350 • C using a pre-oxidized Si powder and CH 4 gas as precursors. SiCNWs obtained by this method were ␤-SiC/SiO 2 core-shell nanowires with average diameter about 55 nm and with a length up to 1 mm. The exhaust gases during the SiCNWs synthesis process were examined by gas chromatography and the photographs of growth activity of SiCNWs inside the furnace were captured. CO gas was detected during the active formation of SiCNWs. It was clarified that CO gas was one of the byproducts from SiCNWs synthesis process, and the formation reaction of SiCNWs should be 3SiO(g) + 3C(s) → 2SiC(s) + SiO 2 (s) + CO(g). The formation of SiCNWs was discussed based on the oxide-assisted-growth mechanism.

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Section: Resultsmentioning

confidence: 62%

Section: Synthesis and Characterization Of Sicnwsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Exhaust gas analysis and formation mechanism of SiC nanowires synthesized by thermal evaporation method

Jiraborvornpongsa

Enomoto

Imai

et al. 2014

Journal of Asian Ceramic Societies

Self Cite

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“…Alternatively, a CVD method can be employed making use of Fe as catalyst and methane as precursor (Zang et al, 2002). A high yield core/shell SiC/SiO 2 NW production method without the use of catalyst was developed starting from raw powders of Si via an oxide assisted thermal evaporation process (Khongwong et al, 2009). Core-shell SiC NW have also been synthesized from carbon monoxide using Ni catalyst by carbothermal reduction method (Attolini et al, 2008).…”

Section: A Brief Review Of Nw Growth Methodsmentioning

confidence: 99%

Cubic SiC Nanowires: Growth, Characterization and Applications

Attolini¹,

Rossi²,

Fabbri³

et al. 2010

Nanowires

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“…Four fundamental growth mechanisms were proposed to explain the growth model of nanowires, including VS, VLS, solid-liquid-solid (SLS) and oxide assisted growth (OAG), in which VS and VLS mechanisms were most commonly involved [33][34][35]. On the basis of experimental results, a catalyst-free VS growth mechanism was proposed to disclose the growth model of several millimeters long SiC-SiO 2 nanowires.…”

Section: Growth Mechanism Of Several Millimeters Long Nanowiresmentioning

confidence: 99%

Synthesis of several millimeters long SiC–SiO2 nanowires by a catalyst-free technique

Dong

et al. 2016

Journal of Crystal Growth

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In situ synthesis of ultra-long SiC-SiO 2 nanowires were successfully conducted with the raw materials of silicon and phenolic resin by an effective and catalyst-free technique. Several millimeters long SiC-SiO 2 nanowires with the diameters in the range of 50-200 nm were mainly composed of Si, C and a small amount of O, and the formation of several millimeters long SiC-SiO 2 nanowires was attributed to a low flow rate and carbon sources supplied continuously by the pyrolysis of phenolic resin. A catalyst-free vapor-solid (VS) growth mechanism was proposed to illustrate the growth process of ultra-long SiC-SiO 2 nanowires in present experiment, which provides a promising method for in situ fabrication of SiC-SiO 2 nanowires as reinforcements into composites.

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Influence of raw powder size, reaction temperature, and soaking time on synthesis of SiC/SiO2 coaxial nanowires via thermal evaporation

Cited by 14 publications

References 30 publications

Exhaust gas analysis and formation mechanism of SiC nanowires synthesized by thermal evaporation method

Exhaust gas analysis and formation mechanism of SiC nanowires synthesized by thermal evaporation method

Cubic SiC Nanowires: Growth, Characterization and Applications

Synthesis of several millimeters long SiC–SiO2 nanowires by a catalyst-free technique

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