Enhancing Propene Formation in the Metathesis of Ethylene with 2-Butene at Close to Room Temperature over MoO_x/SiO₂ through Support Promotion with P, Cl, or S

Abstract: The metathesis of ethylene with 2-butene to propene over catalysts with supported oxides of Mo, Re, or W is attractive both from industrial and fundamental viewpoints. The latter interest is the result of in situ transformation of metal oxides into metal carbenes, which are the active sites. In comparison with previous studies using metal oxide promoters for enhancing catalyst activity, the present study demonstrates that modification of the SiO2 support with P, S, or Cl is an efficient method for facilitating… Show more

“…[4][5][6] Their performance in the metathesis reaction depends on several factors including surface acidity, [7][8][9] reducibility of MoO x species, 10 dispersion of MoO x species, [11][12][13][14] catalyst pre-treatment conditions, 15,16 the type of support, 17 and the presence of surface hydroxyls. 18 All these factors are important for in situ formation of Mo-carbenes (MoCHR), which are the active sites in this reaction. Moreover, the kind of MoO x species, from which MoCHR are formed, was established to affect the overall scheme of propene formation.…”

Effect of AlSiO_x support modification by alkali or alkaline earth metals on propene formation in the metathesis of C₂H₄ and 2-C₄H₈ over MoO_x-based catalysts

“…[4][5][6] Their performance in the metathesis reaction depends on several factors including surface acidity, [7][8][9] reducibility of MoO x species, 10 dispersion of MoO x species, [11][12][13][14] catalyst pre-treatment conditions, 15,16 the type of support, 17 and the presence of surface hydroxyls. 18 All these factors are important for in situ formation of Mo-carbenes (MoCHR), which are the active sites in this reaction. Moreover, the kind of MoO x species, from which MoCHR are formed, was established to affect the overall scheme of propene formation.…”

Effect of AlSiO_x support modification by alkali or alkaline earth metals on propene formation in the metathesis of C₂H₄ and 2-C₄H₈ over MoO_x-based catalysts

“…2 This reaction is performed over relatively cheap and poison-resistant WO x /SiO 2 catalysts at temperatures above 300 °C. 3 Certain materials (MgO, Ca(OH) 2 , CaO, Y 2 O 3 , NaOH, NaNO 3 , KNO 3 and hydrotalcites) located upstream or admixed to WO x /SiO 2 are known to significantly increase the metathesis activity of the latter. 4 Noticeably, the additives are not active in the metathesis reaction and therefore defined as cocatalysts.…”

“…[6][7][8][9][10][11][12][13][14] MoO x /SiO 2 , MoO x /Al 2 O 3 , and MoO x /SiO 2 -Al 2 O 3 systems are considered as promising alternatives to the commercially applied WO x / SiO 2 . 3,8,15 The metathesis activity of MoO x /SiO 2 at low temperature can be significantly improved by treating the catalyst in methanol, 10 CO, 16 or hydrocarbons (methane, ethane, propane, ethene and propene) at high temperatures to create Mo-carbenes. 12,16,17 Similar to WO x /SiO 2 , the enhancing effect of Al 2 O 3 , AlSiO x or CaO cocatalysts was established by Goelden et al 5 for the above-mentioned Mo-containing catalysts in the metathesis of ethylene with 2-butene to propene above 150 °C.…”

“…2 This reaction is performed over relatively cheap and poison-resistant WO x /SiO 2 catalysts at temperatures above 300 °C. 3…”

“…6–14 MoO x /SiO 2 , MoO x /Al 2 O 3 , and MoO x /SiO 2 –Al 2 O 3 systems are considered as promising alternatives to the commercially applied WO x /SiO 2 . 3,8,15 The metathesis activity of MoO x /SiO 2 at low temperature can be significantly improved by treating the catalyst in methanol, 10 CO, 16 or hydrocarbons (methane, ethane, propane, ethene and propene) at high temperatures to create Mo–carbenes. 12,16,17…”

Fundamentals and application potential of the synergy effect between ZnO and Mo/SiO₂ for propene production in the metathesis of ethylene and trans-2-butene

Enhancement of Propylene Metathesis Performance of MoO₃/Al₂O₃ with Promotion of Phosphoric Acid