Add to ORKG\u3cp\u3eIron carbides are unmistakably associated with the active phase for Fischer-Tropsch synthesis (FTS). The formation of these carbides is highly dependent on the catalyst formulation, the activation method and the operational conditions. Because of this highly dynamic behavior, studies on active phase performance often lack the direct correlation between catalyst performance and iron carbide phase. For the above reasons, an extensive in situ Mössbauer spectroscopy study on highly dispersed Fe on carbon catalysts (Fe@C) produced through pyrolysis of a Metal Organic Framework was coupled to their FTS performance testing. The preparation of Fe@C catalysts via this MOF mediated synthesis allows control over the active phase formation and...
The Fe-based Fischer-Tropsch synthesis (FTS) catalyst, which converts CO and H2 into longer hydrocar...
The Fischer-Tropsch Synthesis (FTS) is an important step in the manufacture of synthetic fuels from ...
In Fe-based Fischer-Tropsch Synthesis (FTS), the Fe carbides form under the carburizing H2 : CO reac...
Iron carbides are unmistakably associated with the active phase for Fischer-Tropsch synthesis (FTS)....
\u3cp\u3eThe conversion of unpromoted, unsupported metallic iron catalysts into carbides during Fisc...
The formation of Fe-carbide phases is relevant to the synthesis of Fischer-Tropsch synthesis catalys...
The structure and elementary composition of various commercial Fe-based MOFs used as precursors for ...
The formation of Fe-carbide phases is relevant to the synthesis of Fischer-Tropsch synthesis catalys...
The impact of activation procedure on the phase composition of precipitated iron Fischer-Tropsch (FT...
The stability and reactivity of ϵ, χ, and θ iron carbide phases in Fischer−Tropsch synthesis (FTS) c...
Presented at the 248th National Meeting of the American Chemical Society (ACS), San Francisco, Calif...
The influence of different iron carbides on the activity and selectivity of iron-based Fischer–Trops...
Transformation behavior of carbonaceous species over a precipitated iron-based Fischer-Tropsch synth...
The Fe-based Fischer-Tropsch synthesis (FTS) catalyst, which converts CO and H2 into longer hydrocar...
The Fischer-Tropsch Synthesis (FTS) is an important step in the manufacture of synthetic fuels from ...
In Fe-based Fischer-Tropsch Synthesis (FTS), the Fe carbides form under the carburizing H2 : CO reac...
Iron carbides are unmistakably associated with the active phase for Fischer-Tropsch synthesis (FTS)....
\u3cp\u3eThe conversion of unpromoted, unsupported metallic iron catalysts into carbides during Fisc...
The formation of Fe-carbide phases is relevant to the synthesis of Fischer-Tropsch synthesis catalys...
The structure and elementary composition of various commercial Fe-based MOFs used as precursors for ...
The formation of Fe-carbide phases is relevant to the synthesis of Fischer-Tropsch synthesis catalys...
The impact of activation procedure on the phase composition of precipitated iron Fischer-Tropsch (FT...
The stability and reactivity of ϵ, χ, and θ iron carbide phases in Fischer−Tropsch synthesis (FTS) c...
Presented at the 248th National Meeting of the American Chemical Society (ACS), San Francisco, Calif...
The influence of different iron carbides on the activity and selectivity of iron-based Fischer–Trops...
Transformation behavior of carbonaceous species over a precipitated iron-based Fischer-Tropsch synth...
The Fe-based Fischer-Tropsch synthesis (FTS) catalyst, which converts CO and H2 into longer hydrocar...
The Fischer-Tropsch Synthesis (FTS) is an important step in the manufacture of synthetic fuels from ...
In Fe-based Fischer-Tropsch Synthesis (FTS), the Fe carbides form under the carburizing H2 : CO reac...