Your search keyword '"Li, Yubei"' showing total 2 results

1. The Influence of Sulfurization and Carbonization on Mo-Based Catalysts for CH 3 SH Synthesis.

Author

Wang, Hao, Zhang, Wenjun, Zheng, Dalong, Li, Yubei, Fang, Jian, Luo, Min, Lu, Jichang, and Luo, Yongming

Subjects

CARBONIZATION, CATALYSTS, RAMAN spectroscopy, X-ray diffraction, METHANETHIOL

Abstract

Sulfur-resistant Mo-based catalysts have become promising for the one-step synthesis of methanethiol (CH3SH) from CO/H2/H2S, but the low reactant conversion and poor product selectivity have constrained its development. Herein, we synthesized K-MoS2/Al2O3 and K-Mo2C/Al2O3 catalysts via the sulfurization and carbonization of K-Mo-based catalysts in the oxidized state, respectively. During the synthesis of CH3SH, both K-Mo2C/Al2O3 and K-MoS2/Al2O3 showed excellent catalytic performance, and the activity of the former is superior to that of the latter. The effect of different treatments on the catalytic performance of Mo-based catalysts was investigated by XRD, BET, Raman spectroscopy, H2-TPR, and reactants-TPD characterization. The results showed that the sulfide-treated sample showed stronger metal-support interactions and contributed to the formation of K2S, which exposed more active sites and stabilized the formation of C-S bonds. Carbonized samples enhanced the activation of H2, which promoted the hydrogenation of the intermediate species of carbonyl sulfide (COS) and thus improved the selectivity of CH3SH. [ABSTRACT FROM AUTHOR]

Published

2024

2. Influence of Carbonization Conditions on Structural and Surface Properties of K-Doped Mo 2 C Catalysts for the Synthesis of Methyl Mercaptan from CO/H 2 /H 2 S.

Author

Zheng, Xiangqian, Ai, Tianhao, Hu, Yuhong, Xu, Zhizhi, Li, Yubei, Jiang, Huan, and Luo, Yongming

Subjects

CATALYST synthesis, CARBONIZATION, SURFACE properties, MOLYBDENUM catalysts, TEMPERATURE-programmed reduction, WATER gas shift reactions, MOLYBDENUM, CARBON foams

Abstract

The cooperative transition of sulfur-containing pollutants of H2S/CO/H2 to the high-value chemical methyl mercaptan (CH3SH) is catalyzed by Mo-based catalysts and has good application prospects. Herein, a series of Al2O3-supported molybdenum carbide catalysts with K doping (denoted herein as K-Mo2C/Al2O3) are fabricated by the impregnation method, with the carbonization process occurring under different atmospheres and different temperatures between 400 and 600 °C. The CH4-K-Mo2C/Al2O3 catalyst carbonized by CH4/H2 at 500 °C displays unprecedented performance in the synthesis of CH3SH from CO/H2S/H2, with 66.1% selectivity and a 0.2990 g·gcat−1·h−1 formation rate of CH3SH at 325 °C. H2 temperature-programmed reduction, temperature-programmed desorption, X-ray diffraction and Raman and BET analyses reveal that the CH4-K-Mo2C/Al2O3 catalyst contains more Mo coordinatively unsaturated surface sites that are responsible for promoting the adsorption of reactants and the desorption of intermediate products, thereby improving the selectivity towards and production of CH3SH. This study systematically investigates the effects of catalyst carbonization and passivation conditions on catalyst activity, conclusively demonstrating that Mo2C-based catalyst systems can be highly selective for producing CH3SH from CO/H2S/H2. [ABSTRACT FROM AUTHOR]

Published

2023