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Physical mixing of a catalyst and a hydrophobic polymer promotes CO hydrogenation through dehydration.

Wei FangChengtao WangZhiqiang LiuLiang WangLu LiuHangjie LiShaodan XuAn Min ZhengXuedi QinLujie LiuFeng-Shou Xiao
Published in: Science (New York, N.Y.) (2022)
In many reactions restricted by water, selective removal of water from the reaction system is critical and usually requires a membrane reactor. We found that a simple physical mixture of hydrophobic poly(divinylbenzene) with cobalt-manganese carbide could modulate a local environment of catalysts for rapidly shipping water product in syngas conversion. We were able to shift the water-sorption equilibrium on the catalyst surface, leading to a greater proportion of free surface that in turn raised the rate of syngas conversion by nearly a factor of 2. The carbon monoxide conversion reached 63.5%, and 71.4% of the hydrocarbon products were light olefins at 250°C, outperforming poly(divinylbenzene)-free catalyst under equivalent reaction conditions. The physically mixed CoMn carbide/poly(divinylbenzene) catalyst was durable in the continuous test for 120 hours.
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