Divergence of allene from methylacetylene oligomerization reactions on reduced TiO2 (001) surfaces

Q4 Chemical Engineering 分子催化 Pub Date : 1994-12-15 DOI:10.1016/0304-5102(94)00134-0
Keith G. Pierce, Mark A. Barteau
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引用次数: 7

Abstract

Temperature-programmed desorption (TPD) studies of allene on reduced TiO2 (001) surfaces were undertaken to compare the chemistry of allene with simple alkynes (in particular, its isomer methylacetylene). The principal product of the reaction of allene was the hydrogenation product propylene; three dimerization products, dimethylene cyclobutane, benzene, and an open-chain C6H10 dimer, were produced in significantly smaller amounts. Conversion of allene was around 70% on the most active (most highly reduced) surfaces, with propylene production accounting for about two-thirds of the reactant converted on a carbon-content basis. Adsorption of allene was greatest on the most reduced surfaces, and decreased dramatically on less reduced surfaces prepared by prior annealing at 650 K and above. All dimer products were extinguished on surfaces annealed to over 650 K prior to adsorption, while smaller but non-zero amounts of propylene continued to be produced on surfaces annealed in this temperature range. All three dimeric products track the population of Ti( + 2) cations on the surface; this site requirement implies that these reactions involve a surface intermediate whose formation requires a two-electron oxidation of surface cations. A metallacyclopentane intermediate is proposed to account for the formation of allene dimerization products. This intermediate is similar to the metallacyclopentadiene involved in alkyne dimerization and cyclotrimerization on reduced TiO2 surfaces. Although two of the products (propylene and the C6H10 dimer) from allene TPD are common to methylacetylene also, no formation of trimethylbenzene (nor of any trimer product) was observed from allene, in sharp contrast to the behavior of methylacetylene on reduced TiO2 surfaces. Except for the novel production of benzene from allene in this study, analogies may be found for the distinct reaction pathways of both allene and methylacetylene in the chemistry of transition metal complexes.

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还原TiO2(001)表面甲基乙炔寡聚反应中烯的发散
对还原TiO2(001)表面上的烯烯进行了程序升温解吸(TPD)研究,以比较烯烯与简单炔(特别是其同分异构体甲基乙炔)的化学性质。丙烯反应的主要产物是加氢产物丙烯;三种二聚化产物,二亚甲基环丁烷,苯和开链C6H10二聚体的产量显著减少。在最活跃的(高度还原的)表面上,丙烯的转化率约为70%,以碳含量为基础,丙烯产量约占反应物转化率的三分之二。在650 K及以上退火制备的还原程度较低的表面上,烯的吸附量急剧下降。所有二聚体产物在吸附前退火到650 K以上的表面上熄灭,而在此温度范围内退火的表面上继续产生少量但非零量的丙烯。所有三种二聚体产物都追踪表面Ti(+ 2)阳离子的居族;这个位置要求意味着这些反应涉及一个表面中间体,其形成需要表面阳离子的双电子氧化。提出了一种金属环戊烷中间体来解释烯二聚化产物的形成。这种中间体类似于金属环戊二烯在还原TiO2表面上参与炔二聚化和环三聚化。虽然丙烯TPD的两种产物(丙烯和C6H10二聚体)也与甲基乙炔相同,但没有从丙烯中形成三甲苯(也没有任何三聚体产物),这与甲基乙炔在还原TiO2表面上的行为形成鲜明对比。除了本研究中新发现的烯丙烯制苯外,在过渡金属配合物的化学反应中,烯丙烯和甲基乙炔的不同反应途径可能有相似之处。
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来源期刊
分子催化
分子催化 Chemical Engineering-Catalysis
CiteScore
1.50
自引率
0.00%
发文量
2959
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Author index Subject index Hydrolysis of sucrose by dealuminated Y-zeolites Synthesis and application of organophilic polystyrene-montmorillonite supported onium salts in organic reactions Effect of the reduction temperature on the selectivity of the high temperature reaction of acetone and hydrogen over alumina and titania supported nickel and cobalt catalysts
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