AI Article Synopsis
- The study introduces air-stable magnetic nanoparticles that enhance CO methanation catalysis without sintering under harsh conditions.
- These nanoparticles achieve over 95% carbon monoxide conversion to methane while maintaining their structural integrity during the reaction.
- Key innovations include using an exchange-coupled magnetic approach and designing cuboctahedron-shaped core-shell nanoparticles to optimize magnetic response and heating efficiency.
Article Abstract
Magnetically induced catalysis can be promoted taking advantage of optimal heating properties from the magnetic nanoparticles to be employed. However, when unprotected, these heating agents that are usually air-sensitive, get sintered under the harsh catalytic conditions. In this context, we present, to the best of our knowledge, the first example of air-stable magnetic nanoparticles that: 1) show excellent performance as heating agents in the CO methanation catalyzed by Ni/SiRAlOx, with CH yields above 95 %, and 2) do not sinter under reaction conditions. To attain both characteristics we demonstrate, first the exchange-coupled magnetic approach as an alternative and effective way to tune the magnetic response and heating efficiency, and second, the chemical stability of cuboctahedron-shaped core-shell hard CoFe O -soft Fe O nanoparticles.
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| http://dx.doi.org/10.1002/anie.202004908 | DOI Listing |
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