Negative Thermal Expansion of Sulphur-Doped Graphene Oxide

Advanced Materials Research Pub Date : 2023-02-20 DOI:10.4028/p-rppn12

S. Figarova, E. Aliyev, Reshad Abaszade, V. R. Figarov

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Abstract

The sulfur content present in graphene oxide prepared by Hummers' method has only been addressed by few papers so far. By modified Hammers method we synthesized thermally stable in ambient environment multilayer sulphur-doped graphene oxide. The samples were heat treated in an electrical furnace setup at different ambient temperatures and their crystallite size and linear coefficient of thermal expansion were extracted from Raman band intensity peak ratio as a function of temperature. We found unusually large (in comparison with graphene oxide) contraction on heating of multilayer two weight percent sulphur-doped graphene oxide with carbon to oxygen ratio of 2.3 in a narrow temperature range (308-318 K) with the lowest value of the linear thermal expansion coefficient of -18 ppm 1/K. Based upon an examination of the synthesized sulphur-doped graphene diffractograms, it is suggested that negative thermal expansion stems from the phonon backscattering by the sulphur impurity sites and the edges of the layers. The obtained experimental results have potential practical applications for fabrication of solar cells, sensors, lubricators, thermal actuators and also wavelike (second sound) thermal transport structures.

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掺硫氧化石墨烯的负热膨胀

迄今为止，Hummers方法制备的氧化石墨烯中存在的硫含量只有几篇论文涉及。采用改进的hammer法制备了热稳定的多层硫掺杂氧化石墨烯。在不同环境温度的电炉中对样品进行热处理，并从拉曼光谱强度峰比作为温度的函数提取样品的晶粒尺寸和热膨胀线性系数。我们发现，在狭窄的温度范围(308-318 K)下，与氧化石墨烯相比，多层百分之二重量硫掺杂氧化石墨烯在碳氧比为2.3的情况下加热时收缩异常大，线性热膨胀系数的最低值为-18 ppm 1/K。通过对合成的掺硫石墨烯衍射图的分析，提出了负热膨胀源于硫杂质位点和层边缘的声子后向散射。实验结果在太阳能电池、传感器、润滑器、热致动器以及波状(第二声)热传输结构的制造方面具有潜在的实际应用价值。

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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Advanced Materials Research

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