Structural Regulation of Modified Fe3O4 Microspheres for Enhanced Synthesis of Linear α-Olefins by CO2 Hydrogenation

Liuliu Zhong, Qisheng Hu, Changjian Li, Jing Ding, Chundong Zhang, Hui Wan, Lei Wang, Guofeng Guan

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摘要

The hydrogenation of CO2 to produce α-olefins and other high-value chemicals plays a crucial role in energy transformation and sustainable low-carbon development. However, the CO2 hydrogenation pathway for α-olefin synthesis still encounters various challenges, such as limited CO2 conversion and low α-olefin selectivity. To tackle these issues, this study initially assessed the catalytic properties of iron-based catalysts with varying morphologies and particle sizes. The findings indicated that the spherical Fe3O4 catalysts with large specific surface area demonstrated high CO2 conversion (20.8%) and α-olefin selectivity (14.4%) To improve CO2 adsorption and facilitate carbon chain growth, K and Sr were introduced to modify the spherical Fe3O4 catalysts. The synergistic electronic and structural effects of K and Sr contributed to enhanced α-olefin formation. Experimental data revealed that, under reaction conditions of 340 °C, 2.5 MPa, and a space velocity of 5000 h-1, the optimized 5K10Sr/Fe3O4 microsphere catalyst achieved a CO2 conversion of 45.4%, C2+ selectivity of 68%, chain growth factor of 0.67, and LAO (linear α-olefins in C4+ products) selectivity of 53.6%.

源语言英语
期刊ACS Sustainable Chemistry and Engineering
DOI
出版状态已接受/待刊 - 2025

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