Sb-Mo-O系単一相複合酸化物触媒での各種アルコールの酸化的エステル化反応

Engineering sciences reports, Kyushu University Pub Date : 1991-06-01 DOI:10.15017/17215
王 連馳, 津田 雅之, 江口 浩一, 荒井 弘通, 清山 哲郎
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Abstract

Oxidative esterification of lower alcohols was tested over the single-phase catalysts of the Sb-Mo-O system, which was known as Sb4Mo10O31 (X phase), Sb2Mo10O31 (Y phase) and Sb2MoO6 (Z phase). In the case of ethanol, X phase and Y phase gave stable activity compared to the Sb2O4-MoO3 mixed oxide catalyst, where Y phase gave higher yield of ethyl acetate but X phase gave acetaldehyde mainly. In comparison with oxidative esterification of a series of alcohols of C1-C4, it is concluded that the Sb-Mo-O catalyst is effective only in ethanol oxidation. The reduction experiment of the catalyst suggested that lattice oxygen was used in the stage of ethanol oxidation to acetaldehyde rather than the adsorbed oxygen.
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Sb-Mo-O类单相复合氧化物催化下各种醇的氧化酯化反应
以Sb4Mo10O31 (X相)、Sb2Mo10O31 (Y相)和Sb2MoO6 (Z相)为单相催化剂,对低醇的氧化酯化反应进行了研究。在乙醇的情况下,与Sb2O4-MoO3混合氧化物催化剂相比,X相和Y相具有稳定的活性,其中Y相的乙酸乙酯收率较高,而X相的乙醛收率主要。通过对比C1-C4系列醇的氧化酯化反应,得出Sb-Mo-O催化剂仅对乙醇氧化有效的结论。催化剂的还原实验表明,在乙醇氧化制乙醛的过程中使用的是晶格氧,而不是吸附氧。
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Engineering sciences reports, Kyushu University
Engineering sciences reports, Kyushu University
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