Pyrolytic graphene layers and their orient structure in modified particles of carbon black reflected by XRD and Raman spectroscopy

21ST CENTURY: CHEMISTRY TO LIFE Pub Date : 2019-08-16 DOI:10.1063/1.5122919

A. G. Shaitanov, Y. Surovikin, A. V. Syrieva, A. B. Arbuzov

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Abstract

The behavior of the RS and XRD characteristics was studied experimentally on the example of a low-ordered nanocarbon material with controlled changes in the parameters of simplified actions or their combinations. The results of research are necessary when studying the nanostructures of such materials in order to optimize them in the development of electrode masses for modern autonomous systems for the production and storage of energy. We used varieties of actions that are similar to technological operations in obtaining carbon black in an industrial reactor. Impacts reduced defectiveness, increased orderliness, changed the orientation of nanographene sheets in the stacking.The behavior of the RS and XRD characteristics was studied experimentally on the example of a low-ordered nanocarbon material with controlled changes in the parameters of simplified actions or their combinations. The results of research are necessary when studying the nanostructures of such materials in order to optimize them in the development of electrode masses for modern autonomous systems for the production and storage of energy. We used varieties of actions that are similar to technological operations in obtaining carbon black in an industrial reactor. Impacts reduced defectiveness, increased orderliness, changed the orientation of nanographene sheets in the stacking.

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用XRD和拉曼光谱对炭黑改性颗粒中热解石墨烯层及其取向结构进行了表征

以一种低有序纳米碳材料为例，通过控制其简化动作参数或组合参数的变化，研究了其RS和XRD的行为。在研究这些材料的纳米结构时，为了优化它们在现代自主系统中用于生产和储存能量的电极质量的发展，研究结果是必要的。我们使用了各种类似于在工业反应器中获得炭黑的技术操作的行动。冲击减少了缺陷，增加了有序性，改变了纳米石墨烯片在堆叠中的方向。以一种低有序纳米碳材料为例，通过控制其简化动作参数或组合参数的变化，研究了其RS和XRD的行为。在研究这些材料的纳米结构时，为了优化它们在现代自主系统中用于生产和储存能量的电极质量的发展，研究结果是必要的。我们使用了各种类似于在工业反应器中获得炭黑的技术操作的行动。冲击减少了缺陷，增加了有序性，改变了纳米石墨烯片在堆叠中的方向。

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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21ST CENTURY: CHEMISTRY TO LIFE

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