In-depth understanding of the crystal-facet effect of La2O2CO3 for low-temperature oxidative coupling of methane

Facet effect of lanthanum-based oxides on low-temperature oxidative coupling of methane (OCM) reaction have attracted great attention. In the present work, La2O2CO3 nanoparticles in the morphologies of triangular nanoplate and triangular nanocube with different ratio of {001} and {1 0 0} facets were prepared by facile hydrothermal method. The {001} facets exhibited higher OCM activity than {100} facets at 410 degrees C due to larger number of La3+-O2- sites, which could adsorb CO2 to form bidentate carbonate, and then reacting with oxygen to form adsorbed oxygen species. However, the higher methyl radical adsorption energy and the lower free energy of methane successive dehydrogenation of La2O2CO3{0 0 1} surface caused the excessive dissociation and deep oxidation of methyl radical, thus {001} facets show poor selectivity than {100} facets. Our findings will get a better understanding the facet effect of lanthanum-based oxides and provide guidance for the design of efficient low-temperature OCM catalysts.

Automated summary

This study found that La2O2CO3 nanoparticles with {001} facets exhibit higher activity in the low-temperature oxidative coupling of methane (OCM) reaction, but show lower selectivity due to excessive dissociation and deep oxidation.