Infrared observation of the chemical consequences of cobalt catalyst produced in mixed solutions of Al(Et)3 and Co(acac)2

Q4 Chemical Engineering

分子催化 Pub Date : 1994-10-27 DOI:10.1016/0304-5102(94)87001-2

J. Barrault, M. Blanchard, A. Derouault, M. Ksibi, M.I. Zaki

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引用次数: 6

Abstract

Cobalt catalysts obtained from the reduction of Co(acac)₂ with Al(Et)₃ have been studied by infrared spectroscopy (in the selective hydrogenation of multifunctional compounds). These solids prepared in situ were in suspension in a liquid mixture containing solvent and reagent. In order to obtain information on the preparation and the composition of the catalyst we carried out an FT-IR characterization using a special device warranting sample manipulation in air-free atmosphere. At room temperature there were instantaneous and reductive ligand-exchange between Al(Et)₃ and Co(acac)₂ and formation of Co⁰ particles, Co⁰ soluble complexes and Al(Et)₂(acac). The multistep process may be initiated through the formation of a donor-acceptor complex ((acac)Co(acac)→Al(Et)₃). The presence of CO in the gas phase (H₂) when heating the reaction mixture up to 180°C enhances the reduction of cobalt and probes Co⁰ in different coordination symmetries. Some of the Co⁰ species could be surrounded with cobalt alkoxide species and aluminium acetylacetonate.

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在Al(Et)3和Co(acac)2混合溶液中制备钴催化剂的化学后果的红外观察

用红外光谱法研究了用Al(Et)3还原Co(acac)2得到的钴催化剂(在多功能化合物的选择性加氢反应中)。这些原位制备的固体悬浮在含有溶剂和试剂的液体混合物中。为了获得关于催化剂的制备和组成的信息，我们使用一种特殊的装置在无空气的气氛中进行了FT-IR表征。在室温下，Al(Et)3与Co(acac)2之间发生了瞬时的还原性配体交换，形成了Co0颗粒、Co0可溶性配合物和Al(Et)2(acac)。该多步骤过程可通过供体-受体复合物((acac)Co(acac)→Al(Et)3)的形成而启动。当反应混合物加热到180℃时，气相(H2)中CO的存在增强了钴的还原，并以不同的配位对称探测Co0。一些Co0可以被醇酸钴和乙酰丙酮铝包围。

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来源期刊

分子催化 Chemical Engineering-Catalysis

CiteScore

1.50

自引率

0.00%

发文量

2959

期刊介绍：