Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini Review

Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini Review

The process of selective oxy-functionalization of hydrocarbons using peroxide, O3, H2O2, O2, and transition metals can be carried out by the reactive oxygen species such as hydroxyl/hydroperoxyl radical and/or metal oxygenated species generated in the catalytic reaction. Thus, a variety of mechanism...

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Main Authors: Wondemagegn H. Wanna, Damodar Janmanchi, Natarajan Thiyagarajan, Ravirala Ramu, Yi-Fang Tsai, Steve S. F. Yu
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-10-01
Series:Frontiers in Chemistry
Subjects:
benzene
phenol
p-benzoquinone
hydrogen peroxide
toluene
metal oxide
Online Access:https://www.frontiersin.org/articles/10.3389/fchem.2020.589178/full
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spelling doaj-ce6d00ecc41b4df98487c67000b11e3c2020-11-25T03:56:18ZengFrontiers Media S.A.Frontiers in Chemistry2296-26462020-10-01810.3389/fchem.2020.589178589178Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini ReviewWondemagegn H. Wanna0Damodar Janmanchi1Natarajan Thiyagarajan2Ravirala Ramu3Ravirala Ramu4Yi-Fang Tsai5Steve S. F. Yu6Institute of Chemistry, Academia Sinica, Taipei, TaiwanInstitute of Chemistry, Academia Sinica, Taipei, TaiwanInstitute of Chemistry, Academia Sinica, Taipei, TaiwanInstitute of Chemistry, Academia Sinica, Taipei, TaiwanSree Dattha Institute of Engineering and Science, Hyderabad, IndiaInstitute of Chemistry, Academia Sinica, Taipei, TaiwanInstitute of Chemistry, Academia Sinica, Taipei, TaiwanThe process of selective oxy-functionalization of hydrocarbons using peroxide, O3, H2O2, O2, and transition metals can be carried out by the reactive oxygen species such as hydroxyl/hydroperoxyl radical and/or metal oxygenated species generated in the catalytic reaction. Thus, a variety of mechanisms have been proposed for the selective catalytic oxidation of various hydrocarbons including light alkanes, olefins, and simple aromatics by the biological metalloproteins and their biomimetics either in their homogeneous or heterogeneous platforms. Most studies involving these metalloproteins are Fe or Cu monooxygenases. The pathways carried out by these metalloenzymes in the oxidation of C–H bonds invoke either radical reaction mechanisms including Fenton's chemistry and hydrogen atom transfer followed by radical rebound reaction mechanism or electrophilic oxygenation/O-atom transfer by metal-oxygen species. In this review, we discuss the metal oxide nano-catalysts obtained from metal salts/molecular precursors (M = Cu, Fe, and V) that can easily form in situ through the oxidation of substrates using H2O2(aq) in CH3CN, and be facilely separated from the reaction mixtures as well as recycled for several times with comparable catalytic efficiency for the highly selective conversion from hydrocarbons including aromatics to oxygenates. The mechanistic insights revealed from the oxy-functionalization of simple aromatics mediated by the novel biomimetic metal oxide materials can pave the way toward developing facile, cost-effective, and highly efficient nano-catalysts for the selective partial oxidation of simple aromatics.https://www.frontiersin.org/articles/10.3389/fchem.2020.589178/fullbenzenephenolp-benzoquinonehydrogen peroxidetoluenemetal oxide
collection DOAJ
language English
format Article
sources DOAJ
author Wondemagegn H. Wanna
Damodar Janmanchi
Natarajan Thiyagarajan
Ravirala Ramu
Ravirala Ramu
Yi-Fang Tsai
Steve S. F. Yu
spellingShingle Wondemagegn H. Wanna
Damodar Janmanchi
Natarajan Thiyagarajan
Ravirala Ramu
Ravirala Ramu
Yi-Fang Tsai
Steve S. F. Yu
Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini Review
Frontiers in Chemistry
benzene
phenol
p-benzoquinone
hydrogen peroxide
toluene
metal oxide
author_facet Wondemagegn H. Wanna
Damodar Janmanchi
Natarajan Thiyagarajan
Ravirala Ramu
Ravirala Ramu
Yi-Fang Tsai
Steve S. F. Yu
author_sort Wondemagegn H. Wanna
title Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini Review
title_short Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini Review
title_full Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini Review
title_fullStr Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini Review
title_full_unstemmed Selective Oxidation of Simple Aromatics Catalyzed by Nano-Biomimetic Metal Oxide Catalysts: A Mini Review
title_sort selective oxidation of simple aromatics catalyzed by nano-biomimetic metal oxide catalysts: a mini review
publisher Frontiers Media S.A.
series Frontiers in Chemistry
issn 2296-2646
publishDate 2020-10-01
description The process of selective oxy-functionalization of hydrocarbons using peroxide, O3, H2O2, O2, and transition metals can be carried out by the reactive oxygen species such as hydroxyl/hydroperoxyl radical and/or metal oxygenated species generated in the catalytic reaction. Thus, a variety of mechanisms have been proposed for the selective catalytic oxidation of various hydrocarbons including light alkanes, olefins, and simple aromatics by the biological metalloproteins and their biomimetics either in their homogeneous or heterogeneous platforms. Most studies involving these metalloproteins are Fe or Cu monooxygenases. The pathways carried out by these metalloenzymes in the oxidation of C–H bonds invoke either radical reaction mechanisms including Fenton's chemistry and hydrogen atom transfer followed by radical rebound reaction mechanism or electrophilic oxygenation/O-atom transfer by metal-oxygen species. In this review, we discuss the metal oxide nano-catalysts obtained from metal salts/molecular precursors (M = Cu, Fe, and V) that can easily form in situ through the oxidation of substrates using H2O2(aq) in CH3CN, and be facilely separated from the reaction mixtures as well as recycled for several times with comparable catalytic efficiency for the highly selective conversion from hydrocarbons including aromatics to oxygenates. The mechanistic insights revealed from the oxy-functionalization of simple aromatics mediated by the novel biomimetic metal oxide materials can pave the way toward developing facile, cost-effective, and highly efficient nano-catalysts for the selective partial oxidation of simple aromatics.
topic benzene
phenol
p-benzoquinone
hydrogen peroxide
toluene
metal oxide
url https://www.frontiersin.org/articles/10.3389/fchem.2020.589178/full
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