The influence of the oxidation method on the properties of reduced graphene oxide

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Photonics Letters of Poland Pub Date : 2022-09-30 DOI:10.4302/plp.v14i3.1154

Ł. Drewniak, S. Drewniak

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Abstract

Derivatives of graphene have become important materials due to their excellent properties. Graphene oxide and reduced graphene oxide are especially interesting because they are produced relatively easily, cheaply and quickly. Among many possible applications, reduced graphene oxide is a good candidate for sensor applications. Its properties can be controlled at the production stage. The precursor used and the method of oxidation have a significant influence on its properties. Therefore, it is worth take a closer look at them. In this paper we analyse the influence of the oxidation method on the size of the reduced graphene stock which determine the sensitivity of the rGO layer. We used AFM microscopy for this purpose. Full Text: PDF ReferencesS.M. Majhi, A. Mirzaei, H.W. Kim, S.S. Kim, "Reduced Graphene Oxide (rGO)-Loaded Metal-Oxide Nanofiber Gas Sensors: An Overview", Sensors 21, 4 (2021). CrossRef M. Pumera, "Graphene-based nanomaterials for energy storage", Energy Environ. Sci. 4 3 (2011). CrossRef X. Yu, H. Cheng, M. Zhang, Y. Zhao, L. Qu, G. Shi, "Graphene-based smart materials", Nat. Rev. Mater. 2, 9 (2017). CrossRef M.Y. Xia, Y. Xie, C.H. Yu, G.Y. Chen, Y.H. Li, T., Zhang, Q. Peng, "Graphene-based nanomaterials: the promising active agents for antibiotics-independent antibacterial applications", J. Control. Release 10 (2019). CrossRef X. Zhu, Y. Zhou, Y. Guo, H. Ren, C. Gao, "Nitrogen dioxide sensing based on multiple-morphology cuprous oxide mixed structures anchored on reduced graphene oxide nanosheets at room temperature", Nanotechnology 30 45 (2019). CrossRef Z. Wu, Y. Wang, S. Ying, M. Huang, C. Peng, "Fabrication of rGO/Cuprous Oxide Nanocomposites for Gas Sensing", IOP Conf. Ser.: Earth Environ. Sci. 706, 1 (2021). CrossRef S. Pei, H.M. Cheng, "The reduction of graphene oxide", Carbon 50, 9 (2012). CrossRef K. Spilarewicz-Stanek, A. Kisielewska, J. Ginter, K. Bałuszyńska, I. Piwoński, "Elucidation of the function of oxygen moieties on graphene oxide and reduced graphene oxide in the nucleation and growth of silver nanoparticles", RSC Adv. 6, 65 (2016). CrossRef R. Muzyka, S. Drewniak, T. Pustelny, M. Sajdak, Ł. Drewniak, "Characterization of Graphite Oxide and Reduced Graphene Oxide Obtained from Different Graphite Precursors and Oxidized by Different Methods Using Raman Spectroscopy Statistical Analysis", Materials 14, 4 (2021) CrossRef B. Lesiak, G. Trykowski, J. Tóth, et al. "Chemical and structural properties of reduced graphene oxide—dependence on the reducing agent", J Mater. Sci. 56 (2021). CrossRef .

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氧化方法对还原氧化石墨烯性能的影响

石墨烯衍生物因其优异的性能而成为重要的材料。氧化石墨烯和还原氧化石墨烯尤其令人感兴趣，因为它们的生产相对容易、便宜和快速。在许多可能的应用中，还原氧化石墨烯是传感器应用的良好候选者。它的性能可以在生产阶段进行控制。所使用的前驱体和氧化方法对其性能有显著影响。因此，有必要仔细研究一下它们。本文分析了氧化方法对还原石墨烯原材尺寸的影响，这决定了还原氧化石墨烯层的灵敏度。为此，我们使用了AFM显微镜。全文:PDF马吉，金洪伟，金世生，“还原氧化石墨烯(rGO)负载金属氧化物纳米纤维气体传感器:综述”，传感器，21(2021)。CrossRef M. Pumera，“基于石墨烯的纳米储能材料”，能源环境，自然科学进展3(2011)。交叉参考:余新，程华，张明，赵艳，曲丽丽，石国光，“基于石墨烯的智能材料”，高分子学报，2,9(2017)。引用本文:夏明艳，谢艳，于春华，陈广银，李艳华，张涛，彭清，“石墨烯基纳米材料:用于非抗生素抗菌应用的有前景的活性剂”，J. Control。版本10(2019)。[CrossRef]朱晓霞，周艳，郭艳，任宏，高超，“基于氧化亚铜混合结构的二氧化氮传感技术”，纳米技术，30(2019)。引用本文:吴志强，王勇，应生，黄明，彭长鹏，“气敏氧化石墨烯/氧化亚铜纳米复合材料的制备”，中国机械工程学报，2003,17(4):428 - 428。地球环境。科学通报，2016,33(6):1145 - 1145。交叉参考裴思，程宏明，“氧化石墨烯的还原”，碳50,9(2012)。[CrossRef] K. Spilarewicz-Stanek, A. Kisielewska, J. Ginter, K. Bałuszyńska, I. Piwoński，“氧化石墨烯和还原性氧化石墨烯在银纳米粒子成核和生长中的作用研究”，材料工程，6(2016)。CrossRef R. Muzyka, S. Drewniak, T. Pustelny, M. Sajdak， Ł。Drewniak，“用拉曼光谱统计分析表征不同氧化方法制备的氧化石墨和还原氧化石墨烯”，材料14,4 (2021)CrossRef B. Lesiak, G. Trykowski, J. Tóth，等。“还原氧化石墨烯的化学和结构性质——对还原剂的依赖”，《材料》杂志。科学通报56(2021)。CrossRef。

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Photonics Letters of Poland OPTICS-

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1.40

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