556-48-9Relevant articles and documents
Heterogenized C-Scorpionate Iron(II) Complex on Nanostructured Carbon Materials as Recyclable Catalysts for Microwave-Assisted Oxidation Reactions
Ribeiro, Ana P. C.,Martins, Luísa M. D. R. S.,Carabineiro, Sónia A. C.,Buijnsters, Josephus G.,Figueiredo, José L.,Pombeiro, Armando J. L.
, p. 1821 - 1828 (2018)
The C-scorpionate iron(II) complex [FeCl2(Tpm)] [Tpm=κ3-HC(C3H3N2)3] (1) was immobilized on five different nanostructured carbon materials (nanodiamonds, graphene nanoplatelets, graphene ox
Preparation of supported catalyst and 1, 4 - cyclohexanediol prepared by hydrogenation of fixed bed hydroquinone
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Paragraph 0022-0066, (2021/08/25)
The invention relates γ-Al. 2 O3 Or γ-Al. 2 O3 The preparation of and inorganic carbon supported catalysts and the catalytic hydrogenation of 1, 4 - cyclohexanediol in fixed beds mainly uses γ-Al. 2 O3 Or γ-Al. 2 O3 The transition metal supported by the inorganic carbon is a catalyst, at H. 2 The reaction was carried out in a solution filled with hydroquinone, and 1, 4 - cyclohexanediol was prepared on a fixed bed. The catalyst disclosed by the invention is simple in preparation process, high in conversion rate, 1 and 4 -cyclohexanediol selectivity. The catalyst is low in manufacturing cost, easy to amplify and produce, and closer to industrial production.
Composite oxide supported double-transition metal catalyst used for fixed bed catalytic hydroquinone hydrogenation to prepare 1 and 4 - cyclohexanediol
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Paragraph 0022-0069, (2021/08/25)
The double-transition metal-based catalyst is used for fixed bed catalytic hydroquinone hydrogenation preparation 1, 4 - cyclohexanediol, mainly taking composite oxide as a carrier and carrying double-transition metal as a catalyst, and is used for catalyzing hydroquinone hydrogenation to prepare 1 and 4 - cyclohexanediol in a fixed bed. To the catalyst, high selectivity 1 and 4 - cyclohexanediol can be obtained through high-efficiency benzenediol hydrogenation on a fixed bed. The catalyst prepared by the method is simple in process, low in cost, easy to amplify and beneficial to industrial production.