Improving catalytic performance and reusability of flower-like Co-B-P amorphous alloy nanobelts for the selective hydrogenation of furfural in water

Flower-like Co-B-P amorphous alloy nanobelts is a facilely prepared, active, stable, low-cost and recyclable catalyst for fufural selective hydrogenation to furfuryl alcohol in water. [Display omitted] Herein, active, low-cost, stable, and sustainable amorphous alloy Co-B-P nanobelts (NBs) are synth...

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Bibliographic Details
Published in:Journal of industrial and engineering chemistry (Seoul, Korea) 2023, 126(0), , pp.601-610
Main Authors: Mo, Min, Liu, Rouyi, Tang, Jiansheng, Xun, Youyi, Guan, Hongru
Format: Article
Language:English
Subjects:
Amorphous alloy
H2O solvent
Nanobelts
Re-use
Selective hydrogenation
화학공학
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Summary:Flower-like Co-B-P amorphous alloy nanobelts is a facilely prepared, active, stable, low-cost and recyclable catalyst for fufural selective hydrogenation to furfuryl alcohol in water. [Display omitted] Herein, active, low-cost, stable, and sustainable amorphous alloy Co-B-P nanobelts (NBs) are synthesized for the selective hydrogenation of furfural (FFR) to furfuryl alcohol (FFA) in H2O. The Co-B-P NBs are flower-like bundles of ultrathin nanosheets obtained by reducing Co ions in a layered liquid crystal using double-reducing agents at room temperature. The specific surface area, hydrogen adsorption capacity, surface states, and FFR selective hydrogenation performance of the Co-B-P NB catalyst can be modified via low-temperature plasma treatment. The treatment does not change the amorphous structure of Co-B-P NBs. In H2O, Co-B-P NBs treated with plasma at an appropriate power and time exhibit 100% FFR conversion and 95.8% FFA selectivity within 80 min at 80 °C and 1.2 MPa H2 pressure. Moreover, plasma treatment can be used to regenerate Co-B-P NB catalysts. The catalytic activity of Co-B-P NB catalysts can be restored using plasma treatment when it decreases because of their oxidation after several hydrogenation cycles.
ISSN:1226-086X
1876-794X
DOI:10.1016/j.jiec.2023.06.052