Effect of process conditions on the synthesis of carbon nanotubes by catalytic decomposition of methane

Shuanglin Zhan , Yajun Tian , Yanbin Cui , Hao Wu , Yonggang Wang , Shufeng Ye , Yunfa Chen
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引用次数: 31

Abstract

A new dual-composition catalyst based on Ni–Mo/MgO with high efficiency of producing carbon nanotubes (CNTs) from methane was reported recently. In the present article, with this type of catalyst, the impact of such experimental parameters as reaction temperature, reaction time, concentration of H2, flow rate ratio of CH4 to H2 on yield and graphitization were investigated, leading to the following optimal growth conditions: reaction time 60 min, reaction temperature 900 °C, CH4:H2 about 100:20 mL/min, under which high-yield multi-walled CNTs bundles were synthesized. Raman measurement indicated that the as-synthesized product was well-graphitized, and the purity was estimated over 95% by TG–DSC analysis. In terms of the above results, an explanation of high-efficiency formation of CNTs bundles and the co-catalysis mechanism of Ni–Mo/MgO were suggested.

工艺条件对甲烷催化分解合成碳纳米管的影响
本文报道了一种新型的基于Ni-Mo /MgO的双组分催化剂,可高效地从甲烷中制备碳纳米管。本文以该催化剂为研究对象,考察了反应温度、反应时间、H2浓度、CH4与H2的流速比等实验参数对石墨化率和产率的影响,确定了最佳生长条件:反应时间60 min,反应温度900℃,CH4:H2约为100:20 mL/min,在此条件下可合成高产率的多壁碳纳米管束。拉曼测定表明,合成产物石墨化良好,TG-DSC分析纯度可达95%以上。根据上述结果,对CNTs束的高效形成和Ni-Mo /MgO的共催化机理进行了解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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