Assessment of the Reaction Time on the Morphology and Quality of Carbon Nanotubes – Silica Microparticles

Procedia Chemistry Pub Date : 2016-01-01 DOI:10.1016/j.proche.2016.03.055

Raja N. Othman , Arthur N. Wilkinson

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Abstract

Carbon nanotube has been grafted in-situ on the surface of spherical silica gel via floating-catalyst chemical vapour deposition method. The reaction temperature was set to be 760 °C and 5 wt. % of ferrocene catalyst (dissolved in toluene) injected into the furnace at a rate of 0.04 ml/min. The reaction time was varied from 1 hour to 8 hours, with one hour interval. It was found that the reaction time of 3 hours yields the best quality hybrid particles. Prolonging the reaction time more than 3 hours resulted in the formation of CNT that consists of thicker tubes, based on the observation via Field Emission Scanning Electron Microscope (FESEM) and Transmission Electron Microscope (TEM). Secondary overgrowth was observed via TEM for tubes synthesized at 7 hours and 8 hours. These results were in agreement with Raman Spectroscopy analysis where the I_G/I_D ratio were very small, indicating high defects and impurities in the samples synthesized at reaction time higher than 3 hours.

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反应时间对碳纳米管-二氧化硅微粒形貌和质量的影响

采用悬浮催化剂化学气相沉积法在球形硅胶表面原位接枝了碳纳米管。反应温度设定为760℃，5 wt. %的二茂铁催化剂(溶解在甲苯中)以0.04 ml/min的速度注入炉中。反应时间从1小时到8小时不等，间隔1小时。实验结果表明，反应时间为3小时的杂化颗粒质量最好。通过场发射扫描电镜(FESEM)和透射电镜(TEM)观察，将反应时间延长3小时以上，形成的碳纳米管由更厚的管组成。在7小时和8小时合成的试管通过透射电镜观察到二次过度生长。这些结果与拉曼光谱分析一致，IG/ID比非常小，表明反应时间超过3小时合成的样品中有很高的缺陷和杂质。

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Procedia Chemistry

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