Issue 48, 2019

Polyoxometalates as bifunctional templates: engineering metal oxides with mesopores and reactive surfaces for catalysis

Abstract

Mesoporous metal oxides with optimized porosity and active surfaces usually exhibit unexpected performance in many applications. However, sacrificial templates and complicated processes are generally required to generate mesopores. Herein, we discover the bifunctional templating talent of polyoxometalates (POMs) for generating not only mesopores but also reactive surfaces in metal oxides, and a facile, recyclable, and general method is reported. By mechanochemical ion-sharing between metal salts and POMs, metal precursors undergo pyrolysis around large POM clusters, which can incorporate abundant mesopores into metal oxides (e.g., Co3O4, Fe3O4, NiO, La2O3, MnO2, CeO2, ZrO2, and CuO) with ultrahigh specific surface areas (up to 210 m2 g−1) after simply being recycled by water washing. Unexpectedly, the oxidative feature of POMs naturally contributes to the formation of high valence metal cations on the material surface. As an example, the Co3O4 sample with both mesopores and enriched surface Co3+ species was more active than Co3O4 derived from a silica template (T100 = 200 °C) and commercial Co3O4 (T100 = 250 °C), in CO oxidation. The current strategy may provide a promising route for the commercialization of mesoporous metal oxides with preferred surface features.

Graphical abstract: Polyoxometalates as bifunctional templates: engineering metal oxides with mesopores and reactive surfaces for catalysis

Supplementary files

Article information

Article type
Paper
Submitted
01 Sep 2019
Accepted
07 Nov 2019
First published
07 Nov 2019

J. Mater. Chem. A, 2019,7, 27297-27303

Author version available

Polyoxometalates as bifunctional templates: engineering metal oxides with mesopores and reactive surfaces for catalysis

Y. Leng, J. Liu, Z. Zhang, H. Chen, P. Zhang and S. Dai, J. Mater. Chem. A, 2019, 7, 27297 DOI: 10.1039/C9TA09614K

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