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Reverse microemulsion synthesis of nanostructured complex oxides for catalytic combustion

Author

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  • Andrey J. Zarur

    (Massachusetts Institute of Technology)

  • Jackie Y. Ying

    (Massachusetts Institute of Technology)

Abstract

Catalysts play an important role in many industrial processes, but their use in high-temperature applications—such as energy generation through natural gas combustion, steam reforming and the partial oxidation of hydrocarbons to produce feedstock chemicals—is problematic. The need for catalytic materials that remain stable and active over long periods at high operation temperatures, often in the presence of deactivating or even poisoning compounds, presents a challenge. For example, catalytic methane combustion, which generates power with reduced greenhouse-gas and nitrogen-oxide emissions1,2,3, is limited by the availability of catalysts that are sufficiently active at low temperatures for start-up and are then able to sustain activity and mechanical integrity at flame temperatures as high as 1,300 °C. Here we use sol–gel processing in reverse microemulsions to produce discrete barium hexaaluminate nanoparticles that display excellent methane combustion activity, owing to their high surface area, high thermal stability and the ultrahigh dispersion of cerium oxide on the their surfaces. Our synthesis method provides a general route to the production of a wide range of thermally stable nanostructured composite materials with large surface-to-volume ratios4,5,6 and an ultrahigh component dispersion that gives rise to synergistic chemical and electronic effects7,8, thus paving the way to the development of catalysts suitable for high-temperature industrial applications.

Suggested Citation

  • Andrey J. Zarur & Jackie Y. Ying, 2000. "Reverse microemulsion synthesis of nanostructured complex oxides for catalytic combustion," Nature, Nature, vol. 403(6765), pages 65-67, January.
  • Handle: RePEc:nat:nature:v:403:y:2000:i:6765:d:10.1038_47450
    DOI: 10.1038/47450
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    Cited by:

    1. He, Li & Fan, Yilin & Bellettre, Jérôme & Yue, Jun & Luo, Lingai, 2020. "A review on catalytic methane combustion at low temperatures: Catalysts, mechanisms, reaction conditions and reactor designs," Renewable and Sustainable Energy Reviews, Elsevier, vol. 119(C).
    2. Xiang Yu & Nina S. Genz & Rafael G. Mendes & Xinwei Ye & Florian Meirer & Maarten Nachtegaal & Matteo Monai & Bert M. Weckhuysen, 2024. "Anchoring PdOx clusters on defective alumina for improved catalytic methane oxidation," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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