Magnetic Characterization of Fischer-Tropsch Catalysts

Abstract: Résumé -La caractérisation par la méthode magnétique des catalyseurs Fischer-TropschCet article passe en revue les développements récents dans le domaine de la caractérisation des catalyseurs Fischer-Tropsch à base de cobalt, de fer et de nickel par la méthode magnétique. La caractérisation magnétique fournit des informations précieuses sur la réduction du catalyseur, la taille des nanoparticules ferromagnétiques, la chimisorption, ainsi que sur les réactions topochimiques qui se produisent avec les catalyseur… Show more

“…Reciprocally, magnetic measurements appear as an adequate tool to indirectly evaluate the electronic influence of chemicals adsorbed at the surface of NPs (which can be of interest to monitor catalytic reactions) [309].…”

Controlled metal nanostructures: Fertile ground for coordination chemists

“…Reciprocally, magnetic measurements appear as an adequate tool to indirectly evaluate the electronic influence of chemicals adsorbed at the surface of NPs (which can be of interest to monitor catalytic reactions) [309].…”

Controlled metal nanostructures: Fertile ground for coordination chemists

“…The magnetic measurements were performed in situ using a Foner vibrating-sample magnetometer [46,47] with 20 mg catalyst loading. The magnetometer was calibrated by using 1 mg of pure metallic Fe before each experiment.…”

Pore size effects in high-temperature Fischer–Tropsch synthesis over supported iron catalysts

“…Very intriguing magnetic phenomena were found in other similar vanadate compounds [7][8][9][10][11]. It is also known from literature [12][13][14][15][16][17][18] that magnetic measurements are useful in catalytic investigations. As an example, catalytic activity of ferromagnetic or antiferromagnetic phases can change at the Curie or Neel temperatures.…”

Magnetic properties of a new vanadate Cu13Fe4V10O44