Elucidating the layer-number impact of MoS2 on the adsorption and hydrogenation of CO

MoS2 is an attractive sulfur-resistant catalyst for directly converting sulfur-containing syngas to high value-added chemicals. However, the effect of the layered structure on the catalytic activity for CO hydrogenation reactions is far from clear. Herein, MoS2/carbon composite catalysts with 1-8 stacking layers in MoS2 crystallites are synthesized, and the impact of the layer numbers on the catalytic performance is probed for the low-temperature methanation of sulfur-containing syngas. The results indicate that the turnover frequency of CO methanation increases from 2.4 x 10(-3) to 3.7 x 10(-3) s(-1) with decreasing layer numbers of MoS2 crystallites from 8.3 to 1.1. This result is thoroughly explained by the fact that the higher ratio of rim sites in MoS2 crystallites with fewer layer numbers enhances the catalytic activity, which originates from the facilitated activation of CO and H-2. These understandings are important for the rational design and development of more efficient MoS2-based catalysts for CO hydrogenation. (C) 2021 Elsevier Inc. All rights reserved.

Automated summary

The research found that the catalytic activity of MoS2 crystallites increases as the number of layers decreases, mainly due to the higher proportion of rim sites in crystallites with fewer layers, enhancing catalytic activity.