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Literature DB >> 15782372

Hydroxylation of benzene to phenol under air and carbon monoxide catalyzed by molybdovanadophosphoric acid.

Masayuki Tani¹, Takao Sakamoto, Shuichi Mita, Satoshi Sakaguchi, Yasutaka Ishii.

Abstract

Entities: Chemical

Mesh：

Substances：

Year: 2005 PMID： 15782372 DOI： 10.1002/anie.200462769

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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3 in total

1. Hydroxylation of Benzene via C-H Activation Using Bimetallic CuAg@g-C₃N₄.

Authors: Sanny Verma; R B Nasir Baig; Mallikarjuna N Nadagouda; Rajender S Varma
Journal: ACS Sustain Chem Eng Date: 2017 Impact factor: 8.198

2. C3N4-H5PMo10V2O40: a dual-catalysis system for reductant-free aerobic oxidation of benzene to phenol.

Authors: Zhouyang Long; Yu Zhou; Guojian Chen; Weilin Ge; Jun Wang
Journal: Sci Rep Date: 2014-01-13 Impact factor: 4.379

3. A competing, dual mechanism for catalytic direct benzene hydroxylation from combined experimental-DFT studies.

Authors: Laia Vilella; Ana Conde; David Balcells; M Mar Díaz-Requejo; Agustí Lledós; Pedro J Pérez
Journal: Chem Sci Date: 2017-10-05 Impact factor: 9.825

3 in total

Hydroxylation of benzene to phenol under air and carbon monoxide catalyzed by molybdovanadophosphoric acid.

1. Hydroxylation of Benzene via C-H Activation Using Bimetallic CuAg@g-C3N4.

2. C3N4-H5PMo10V2O40: a dual-catalysis system for reductant-free aerobic oxidation of benzene to phenol.

3. A competing, dual mechanism for catalytic direct benzene hydroxylation from combined experimental-DFT studies.

1. Hydroxylation of Benzene via C-H Activation Using Bimetallic CuAg@g-C₃N₄.