Yukiya Ibi scite author profile

In situ Co K-edge quick-EXAFS (QEXAFS) coupled with temperature-programmed oxidation as well as ex situ XAFS was applied to investigating the mechanism for enhancing the dispersion of Co(3)O(4) nanoparticles in a calcined Co/SiO(2) Fischer-Tropsch synthesis catalyst prepared by adding triethylene glycol (TEG) to a Co(NO(3))(2).6H(2)O impregnating solution. Ex situ Co K-edge XAFS indicated that, regardless of whether the catalysts were prepared with or without using TEG, the hexaaqua Co (II) complex was formed in impregnated samples which then underwent the dehydration process to some extent during the subsequent drying step at 393 K. In situ QEXAFS and ex situ EXAFS results also indicated that small oxide clusters were formed in the TEG-modified catalyst calcined at ~400-470 K which interacted with polymer species derived from TEG. Since the Fischer-Tropsch synthesis activity of the TEG-modified catalyst increased with an increase in the calcination temperature in a similar temperature range [Koizumi et al. (2011), Appl. Catal. A, 395, 138-145], it was suggested that such an interaction enables the clusters to be distributed over the support surface uniformly, resulting in enhancing their dispersion. After combustion of polymer species, Co(3)O(4)-like species were formed, and agglomeration of the Co(3)O(4)-like species at high calcination temperatures was suppressed by the addition of TEG to the impregnating solution. It was speculated that the addition of TEG induced the formation of some surface silicate which worked as an anchoring site for Co(3)O(4) and Co(0) nanoparticles during calcination and H(2) reduction, respectively.

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Enhancing the Fischer–Tropsch Synthesis Activity of Co-based Catalysts by Adding ZrO x to the SiO2 Support and Chelating Ligands to the Co-precursor

Koizumi

Hayasaka

Ibi

et al. 2011

Catal Lett

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Co/ZrO x /SiO 2 catalysts with enhanced dispersion of Co 0 and turnover frequency were successfully prepared combining two different promotion effects, i.e., modifications of SiO 2 surface with ZrO x by liquid phase deposition and influencing coordination structure of Co species using chelating agents or glycols. The catalysts exhibited *6.3-fold higher CO conversion than Co/SiO 2 and those promoted by organic additives or ZrO x alone, indicating activity enhancement was induced by cooperation of these two promoters.

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Preparation of Highly Active Co/SiO2 Catalyst with Chelating Agents for Fischer-Tropsch Synthesis

Hayasaka¹,

Hongo²,

Koizumi³

et al. 2009

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Yukiya Ibi

Effects of glycols on Fischer–Tropsch synthesis activity and coordination structure of Co species in Co/SiO2: Mechanism for enhanced dispersion of Co0 nanoparticles

Mechanistic aspects of the role of chelating agents in enhancing Fischer–Tropsch synthesis activity of Co/SiO2 catalyst: Importance of specific interaction of Co with chelate complex during calcination

Mechanism for enhancing dispersion of Co₃O₄nanoparticles in Co/SiO₂Fischer–Tropsch synthesis catalyst by adding glycol to impregnating solution: a quick-XAFS study

Enhancing the Fischer–Tropsch Synthesis Activity of Co-based Catalysts by Adding ZrO x to the SiO2 Support and Chelating Ligands to the Co-precursor

Preparation of Highly Active Co/SiO2 Catalyst with Chelating Agents for Fischer-Tropsch Synthesis

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Yukiya Ibi

Effects of glycols on Fischer–Tropsch synthesis activity and coordination structure of Co species in Co/SiO2: Mechanism for enhanced dispersion of Co0 nanoparticles

Mechanistic aspects of the role of chelating agents in enhancing Fischer–Tropsch synthesis activity of Co/SiO2 catalyst: Importance of specific interaction of Co with chelate complex during calcination

Mechanism for enhancing dispersion of Co3O4nanoparticles in Co/SiO2Fischer–Tropsch synthesis catalyst by adding glycol to impregnating solution: a quick-XAFS study

Enhancing the Fischer–Tropsch Synthesis Activity of Co-based Catalysts by Adding ZrO x to the SiO2 Support and Chelating Ligands to the Co-precursor

Preparation of Highly Active Co/SiO2 Catalyst with Chelating Agents for Fischer-Tropsch Synthesis

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Mechanism for enhancing dispersion of Co₃O₄nanoparticles in Co/SiO₂Fischer–Tropsch synthesis catalyst by adding glycol to impregnating solution: a quick-XAFS study