Synthesis of centimeter-scale ultra-long SiC nanowires by simple catalyst-free chemical vapor deposition

Wei, Jian; Li, Kezhi; Chen, Jin; Yuan, Hao

doi:10.1016/j.jcrysgro.2011.09.021

Cited by 18 publications

(8 citation statements)

References 34 publications

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“…Li and L.W. Lin[40][41][42].In these literatures, the flow rates mainly ranged from 20 to 80 sccm, and the flow rate of this experiment was 70 sccm within the reported range, which could be the first reason for the formation of several millimeters long SiC-SiO 2 nanowires. The low flow rate leading to a high concentration of gas reactants can be easily up to a supersaturated condition to support the generation of nanowires.…”

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confidence: 61%

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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confidence: 61%

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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“…The lengths of the ultra‐long SiC nanowires synthesized by catalyst‐free chemical vapor deposition technique, were employed in the experiment are about 5–10 mm. The detail fabricated procedure was presented in our previous paper and described as follows . Commercial high‐purity silicon and silicon dioxide powders were first mixed for 6 h by a ball mill with their molar ratio of 1/1.2.…”

Section: Methodsmentioning

confidence: 99%

High Enhanced Efficiency and Mechanism of Ultra‐Long SiC Nanowires in Composites

Wei

Yuan

et al. 2014

Adv Eng Mater

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Ultra-long SiC nanowires with large aspect ratios of 2 Â 10 4-5 were incorporated successfully into epoxy resin to form SiC nanowires/epoxy composite via a preliminary homogenously dispersive process in ethanol. 9.7 and 13.3% bending strength increases were achieved for the composites with the addition of very small quantity (0.1 and 0.125 wt%) of ultra-long SiC nanowires. The prepared ultra-long SiC nanowires have the highest enhanced efficiency than other shorter ones in epoxy resin composites. Microstructure analysis implies that the nanowire disperse homogenously in the composite and have well combination with matrix. The ultra-long nanowires can exert their extraordinary high modulus and tensile strength of SiC nanowires in this condition. The obtained high enhanced efficiency is the mutual effect of high modulus and strength, large aspect ratio, fine distributed state, moderate interface bondings, and formed a three-dimensional network of the ultra-long SiC nanowires.

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“…Moreover, the interaction between nano scaled components can greatly improve performance for application and generate new synergistic properties. One extremely emerging example of nanomaterials is core-shell structured particles which have diverse applications [2] such as photo catalysis [3], biomedical [4], drug-delivery [5], magnetic and silicon semiconductor [6,7], photovoltaic solar cell [8], microelectronic and optoelectronic [9], coatings [10], adhesives [11], pigments [12], super capacitor [13], binders [14], filler for polymers application and biotechnology and material science. It has been reported that integrated properties of such materials are better than those in individual counterparts [15].…”

Section: Introductionmentioning

confidence: 99%

Core–double shell hybrid nanocomposites as multi-functional advanced materials

et al. 2017

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Synthesis of centimeter-scale ultra-long SiC nanowires by simple catalyst-free chemical vapor deposition

Cited by 18 publications

References 34 publications

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

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

High Enhanced Efficiency and Mechanism of Ultra‐Long SiC Nanowires in Composites

Core–double shell hybrid nanocomposites as multi-functional advanced materials

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