High-temperature modification of sibunit for its application as a support for ruthenium catalysts in ammonia synthesis

NANOSCIENCE AND NANOTECHNOLOGY: NANO-SciTech Pub Date : 2019-08-28 DOI:10.1063/1.5122036

V. A. Borisov, K. N. Iost, V. Temerev, Y. Surovikin, A. Smorokov, P. A. Fedotova, D. A. Shlyapin

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引用次数: 3

Abstract

The effect of high-temperature (1400-2200°C) treatment of the carbon material Sibunit on its structural properties was studied. High-temperature treatment leads to structural ordering of the initial Sibunit. As a result of preliminary graphitization, specific surface area decreases by a factor of 10, but thermal stability increases. A good correlation between XRD, Raman spectroscopy and TGA data is observed. For the Sibunit sample treated at 2200 °C, the interplanar distance d(002) estimated by XRD decreases by 0.05 A in comparison with the initial Sibunit, ID/IG decreases from 1.59 to 1.18, and the 2D line substantially increases, which testify to the structural ordering. According to TGA, the temperatures corresponding to the onset of oxidation, 50% oxidation and the end of oxidation of Sibunit calcined at 2200 °C are synchronously shifted by 100 °C with respect to the initial Sibunit.The effect of high-temperature (1400-2200°C) treatment of the carbon material Sibunit on its structural properties was studied. High-temperature treatment leads to structural ordering of the initial Sibunit. As a result of preliminary graphitization, specific surface area decreases by a factor of 10, but thermal stability increases. A good correlation between XRD, Raman spectroscopy and TGA data is observed. For the Sibunit sample treated at 2200 °C, the interplanar distance d(002) estimated by XRD decreases by 0.05 A in comparison with the initial Sibunit, ID/IG decreases from 1.59 to 1.18, and the 2D line substantially increases, which testify to the structural ordering. According to TGA, the temperatures corresponding to the onset of oxidation, 50% oxidation and the end of oxidation of Sibunit calcined at 2200 °C are synchronously shifted by 100 °C with respect to the initial Sibunit.

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硅基的高温改性及其在氨合成中作为钌催化剂载体的应用

研究了高温(1400 ~ 2200℃)处理对硅基碳材料结构性能的影响。高温处理导致初始锡基的结构有序。由于初步石墨化，比表面积减少了10倍，但热稳定性增加。XRD、拉曼光谱和TGA数据具有良好的相关性。在2200℃下处理的Sibunit样品，XRD测得的面间距d(002)比初始Sibunit减小了0.05 A, ID/IG从1.59减小到1.18,2D线大幅增加，证明了结构的有序性。根据TGA, Sibunit在2200℃煅烧的氧化起始、50%氧化和氧化结束对应的温度相对于初始Sibunit同步移动了100℃。研究了高温(1400 ~ 2200℃)处理对硅基碳材料结构性能的影响。高温处理导致初始锡基的结构有序。由于初步石墨化，比表面积减少了10倍，但热稳定性增加。XRD、拉曼光谱和TGA数据具有良好的相关性。在2200℃下处理的Sibunit样品，XRD测得的面间距d(002)比初始Sibunit减小了0.05 A, ID/IG从1.59减小到1.18,2D线大幅增加，证明了结构的有序性。根据TGA, Sibunit在2200℃煅烧的氧化起始、50%氧化和氧化结束对应的温度相对于初始Sibunit同步移动了100℃。

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NANOSCIENCE AND NANOTECHNOLOGY: NANO-SciTech

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