Advantages and disadvantages of electric arc methods for the synthesis of carbon nanostructures

O. Zolotarenko, M. Ualkhanova, E. Rudakova, N. Akhanova, A. Zolotarenko, D. Shchur, M. Gabdullin, N. Gavrylyuk, A. Zolotarenko, M. Chymbai, I. Zagorulko, O. Havryliuk
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引用次数: 7

Abstract

A review of more than 100 contemporary literary works of domestic and foreign researchers on the issues of electric arc synthesis (EAS) of various carbon nanostructures (CNS) has been performed. EAS CNScan be performed in both gaseous and liquid media. EAS in a gaseous medium has a number of advantages, such as high productivity and velocity of the condensation process, as well as ease of control.But this method of synthesis also has disadvantages: it requires a complex vacuum and cooling system, which makes the installation very cumbersome.In addition, this method does not solve the problem of agglomeration of synthesized CNS and has a by-product of synthesis in the form of growth (deposit) on the electrode. EAS in a liquid medium is more compact equipment, as it does not require systems of vacuum (the process takes place at atmospheric pressure) and cooling (liquid medium plays the role of heat dissipation).This method of synthesis uses different types of dielectric liquids – from distilled water (H2O), liquid nitrogen (N2) to hydrocarbon solvents, which can serve as a source of carbon in the synthesis zone.By changing the composition of the liquid phase, it is possible to achieve the synthesis of different types of CNS.Also, this method involves the use of metal electrodes, which, in addition to long service life, can act as catalysts.The metal particles can be encapsulated ANS, forming composites with different magnetic properties.In some studies, it has been shown that mixtures of metal carbides can be formed when metal electrodes are used in the EAS process in a liquid medium.The liquid medium after EASCNS is also of scientific interest. Probably, the liquid medium contains new modifications of soluble organic compounds, which are being researched by researchers around the world.Thus, scientists have found that after EAS in a liquid medium using graphite electrodes, the working solution (C6H6) changed its color.This indicates the formation of soluble organic compounds in it. In the literature review on the basis of literature data the table of modes for industrial synthesis of single-walled CNS is created.Also, a list of modes for the creation of defective CNS as a method of increasing the area of adsorption in nanoparticles. The solution of important problems of the EAS method is recorded: agglomeration of CNS; the problem of forming a deposit; increase productivity.
电弧法合成碳纳米结构的优缺点
本文综述了100余篇国内外学者关于各种碳纳米结构(CNS)电弧合成(EAS)问题的文献。EAS CNScan可在气体和液体介质中进行。气体介质中的EAS具有许多优点,例如冷凝过程的生产率和速度高,以及易于控制。但是这种合成方法也有缺点:它需要一个复杂的真空和冷却系统,这使得安装非常麻烦。此外,该方法没有解决合成CNS的团聚问题,并且在电极上有生长(沉积)形式的合成副产物。液体介质中的EAS是更紧凑的设备,因为它不需要真空系统(该过程在大气压下进行)和冷却系统(液体介质起散热作用)。这种合成方法使用不同类型的介电液体——从蒸馏水(H2O)、液氮(N2)到碳氢化合物溶剂,它们可以作为合成区碳的来源。通过改变液相的组成,可以实现不同类型CNS的合成。此外,这种方法涉及到金属电极的使用,除了使用寿命长外,还可以作为催化剂。金属颗粒可以被包裹在ANS中,形成具有不同磁性能的复合材料。在一些研究中,已经表明,当金属电极在液体介质中用于EAS工艺时,可以形成金属碳化物的混合物。EASCNS后的液体介质也具有科学意义。可能,液体介质中含有可溶有机化合物的新修饰,这是世界各地的研究人员正在研究的。因此,科学家们发现,在使用石墨电极的液体介质中进行EAS后,工作溶液(C6H6)改变了颜色。这表明其中形成了可溶性有机化合物。在查阅文献资料的基础上,编制了单壁CNS工业合成模式表。此外,一个模式的列表为创建有缺陷的中枢神经系统作为增加纳米颗粒的吸附面积的方法。记录了EAS方法中重要问题的解决方法:CNS的团聚;矿床形成的问题;提高生产力。
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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