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Low-oxidation-state Ru sites stabilized in carbon-doped RuO with low-temperature CO activation to yield methane. | LitMetric

AI Article Synopsis

  • The text discusses a new solid catalyst that converts CO into methane fuel, using excess renewable energy, which helps reduce reliance on fossil fuels and lower carbon emissions.
  • This catalyst is created through a green synthesis method involving carbon doped into ruthenium oxide, allowing it to work effectively at lower temperatures compared to traditional catalysts.
  • It also shows great stability over time and can operate with intermittent power supplies, making it ideal for integration with renewable energy systems.

Article Abstract

The generation of methane fuel using surplus renewable energy with CO as the carbon source enables both the decarbonization and substitution of fossil fuel feedstocks. However, high temperatures are usually required for the efficient activation of CO. Here we present a solid catalyst synthesized using a mild, green hydrothermal synthesis that involves interstitial carbon doped into ruthenium oxide, which enables the stabilization of Ru cations in a low oxidation state and a ruthenium oxycarbonate phase to form. The catalyst shows an activity and selectivity for the conversion of CO into methane at lower temperatures than those of conventional catalysts, with an excellent long-term stability. Furthermore, this catalyst is able to operate under intermittent power supply conditions, which couples very well with electricity production systems based on renewable energies. The structure of the catalyst and the nature of the ruthenium species were acutely characterized by combining advanced imaging and spectroscopic tools at the macro and atomic scales, which highlighted the low-oxidation-state Ru sites (Ru, 0 < n < 4) as responsible for the high catalytic activity. This catalyst suggests alternative perspectives for materials design using interstitial dopants.

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Source
http://dx.doi.org/10.1038/s41563-023-01540-1DOI Listing

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