Silicon‐grafted Ag/AgX/rGO nanomaterials (X = Cl or Br) as dip‐photocatalysts for highly efficient p‐nitrophenol reduction and paracetamol production

In this work, plasmonic Ag/AgX/rGO (X = Cl or Br) nano‐photocatalysts were grafted with silicon by adding trimethylsilyl chloride as silicon precursor. The synthesized Ag/AgX/rGO‐Si hybrids showed a large improvement of photocatalytic activity towards the synthesis of p‐aminophenol (PAP) as well as...

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Bibliographic Details
Published in:Applied organometallic chemistry 2019-03, Vol.33 (3), p.n/a
Main Authors: Attia, Yasser A., Mohamed, Yasser M.A.
Format: Article
Language:English
Subjects:
Ag/AgX nanocomposites, P‐aminophenol, paracetamol, photocatalysis, reduced graphene oxide
Aminophenol
Analgesics
Catalysis
Catalysts
Catalytic activity
Chemical reactions
Chemical reduction
Chemical synthesis
Chemistry
Light irradiation
Nanomaterials
Nitrophenol
Photocatalysis
Photocatalysts
Photochemistry
Production costs
Reaction mechanisms
Silicon
Silver chloride
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Summary:In this work, plasmonic Ag/AgX/rGO (X = Cl or Br) nano‐photocatalysts were grafted with silicon by adding trimethylsilyl chloride as silicon precursor. The synthesized Ag/AgX/rGO‐Si hybrids showed a large improvement of photocatalytic activity towards the synthesis of p‐aminophenol (PAP) as well as paracetamol (acetaminophen; APAP) through the photoreduction of p‐nitrophenol (PNP). The prepared catalysts Ag/AgX/rGO were characterized using SEM, XRD, FTIR and the reduction reaction of p‐nitrophenol was monitored by UV–Vis measurements, GC/MS and 1HNMR data. From the results, it was demonstrated that the rate order of reduction process of the PNP to PAP and to APAP under visible light irradiation of the samples was as follows; Ag/AgBr/rGO‐Si > Ag/AgCl/rGO‐Si > Ag/AgBr/rGO > Ag/AgCl/rGO. The reaction mechanism had been postulated that was supported with the spectroscopic data. In addition, the catalysts were recovered from the reaction medium and re‐used in three cycles that indicated the reusability and stability of the catalysts. This study was featured by the following; i) fast reaction, ii) the reduction of p‐nitrophenol to paracetamol was performed in a facile one‐pot reaction compared to previous approaches that tends to reduce the production cost, and iii) investigations on the catalytic properties of Ag/AgX/rGO in organic transformations open the door to find a benefice of these catalysts in other organic reactions and in the development in the synthesis of pharmaceutical products. Catalytic activity of silicon‐grafted Ag/AgX/rGO nanocomposites was tested in the reduction of p‐nitrophenol (PNP) to produce p‐aminophenol (PAP) and paracetamol (APAP).
ISSN:0268-2605
1099-0739
DOI:10.1002/aoc.4757