Preparation of Fe(II)/MOF-5 Catalyst for Highly Selective Catalytic Hydroxylation of Phenol by Equivalent Loading at Room Temperature-Reference-Cited by-同舟云学术

Preparation of Fe(II)/MOF-5 Catalyst for Highly Selective Catalytic Hydroxylation of Phenol by Equivalent Loading at Room Temperature

Published:2019-11-07 Issue: Volume:2019 Page:1-10
ISSN:2090-9063
Container-title:Journal of Chemistry
language:en
Short-container-title:Journal of Chemistry

Author:

Xiang Bai-Lin¹²³^ORCID,Fu Lin¹,Li Yongfei¹^ORCID,Liu Yuejin¹^ORCID

Affiliation:

1. College of Chemistry Engineering, Xiangtan University, Xiangtan 411000, China

2. College of Chemistry and Materials Engineering, Huaihua University, Huaihua 418000, China

3. Hunan Engineering Laboratory for Preparation Technology of Polyvinyl Alcohol (PVA) Fiber Material, College of Chemistry and Materials Engineering, Huaihua University, Huaihua 418000, China

Abstract

The metal-organic framework MOF-5 was synthesized by self-assembling of Zn(NO3)2·7H2O and H2BDC using DMF as solvent by the direct precipitation method and loaded with Fe2+ by the equivalent loading method at room temperature to prepare Fe(II)/MOF-5 catalyst and the microstructure, phases, and pore size of which was characterized by IR, XRD, SEM, TEM, and BET. It was found that Fe(II)/MOF-5 had high specific surface and porosity like MOF-5 and uniform pore distribution, and the pore size is 1.2 nm. In order to study the catalytic activity and reaction conditions of Fe(II)/MOF-5, it was used to catalyze the hydroxylation reaction of phenol with hydrogen peroxide. The results showed that the dihydroxybenzene yield of 53.2% and the catechol selectivity of 98.6% were obtained at the Fe2+ content of 3 wt.%, the mass ratio of Fe(II)/MOF-5 to phenol of 0.053, the reaction temperature of 80°C, and the reaction time of 2 h.

Funder

Key R&D Projects of Hunan science and Technology

Publisher

Hindawi Limited

Subject

General Chemistry

Link

http://downloads.hindawi.com/journals/jchem/2019/8950630.pdf

Reference51 articles.

1. Synthesis, characterization, and catalytic performance of copper-containing SBA-15 in the phenol hydroxylation

2. High Catalytic Activity in the Phenol Hydroxylation of Magnetically Separable CuFe2O4–Reduced Graphene Oxide

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