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Catalysis and the Mechanism of Methane Conversion to Chemicals = C-C and C-O Bonds Formation Using Heterogeneous, Homogenous, and Biological Catalysts /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Catalysis and the Mechanism of Methane Conversion to Chemicals/ by Toshihide Baba, Akimitsu Miyaji.
Reminder of title:	C-C and C-O Bonds Formation Using Heterogeneous, Homogenous, and Biological Catalysts /
Author:	Baba, Toshihide.
other author:	Miyaji, Akimitsu.
Description:	XII, 220 p. 179 illus., 11 illus. in color.online resource. :
Contained By:	Springer Nature eBook
Subject:	Catalysis. -
Online resource:	https://doi.org/10.1007/978-981-15-4132-2
ISBN:	9789811541322

Catalysis and the Mechanism of Methane Conversion to Chemicals = C-C and C-O Bonds Formation Using Heterogeneous, Homogenous, and Biological Catalysts /
Baba, Toshihide.

Catalysis and the Mechanism of Methane Conversion to ChemicalsC-C and C-O Bonds Formation Using Heterogeneous, Homogenous, and Biological Catalysts /[electronic resource] :by Toshihide Baba, Akimitsu Miyaji. - 1st ed. 2020. - XII, 220 p. 179 illus., 11 illus. in color.online resource.

Overview of direct methane conversion to chemicals with C–O and C–C bonds -- Selective production of methanol from methane and molecular oxygen at atmospheric temperature and pressure using methane monooxygenases -- Heterogeneous and homogeneous catalytic partial oxidations of methane to methanol and its derivatives -- Application of biocatalysts for the production of methanol from methane -- C–C bond formation via the condensation of methane in the presence or absence of oxygen -- Conversion of methane to aromatic hydrocarbons -- C–C bond formation via carbocations in the methane conversion under non-oxidative conditions.

This book introduces various types of reactions to produce chemicals by the direct conversion of methane from the point of view of mechanistic and functional aspects. The chemicals produced from methane are aliphatic and aromatic hydrocarbons such as propylene and benzene, and methanol. These chemicals are created by using homogeneous catalysts, heterogeneous catalysts such as zeolites, and biocatalysts such as enzymes. Various examples of methane conversion reactions that are discussed have been chosen to illustrate how heterogeneous and homogenous catalysts and biocatalysts and/or their reaction environments control the formation of highly energetic species from methane contributing to C-C and C-O bond formation.

ISBN: 9789811541322

Standard No.: 10.1007/978-981-15-4132-2doiSubjects--Topical Terms:

673438
Catalysis.

LC Class. No.: QD505

Dewey Class. No.: 541.395

Catalysis and the Mechanism of Methane Conversion to Chemicals = C-C and C-O Bonds Formation Using Heterogeneous, Homogenous, and Biological Catalysts /
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505 0 $a Overview of direct methane conversion to chemicals with C–O and C–C bonds -- Selective production of methanol from methane and molecular oxygen at atmospheric temperature and pressure using methane monooxygenases -- Heterogeneous and homogeneous catalytic partial oxidations of methane to methanol and its derivatives -- Application of biocatalysts for the production of methanol from methane -- C–C bond formation via the condensation of methane in the presence or absence of oxygen -- Conversion of methane to aromatic hydrocarbons -- C–C bond formation via carbocations in the methane conversion under non-oxidative conditions.
520 $a This book introduces various types of reactions to produce chemicals by the direct conversion of methane from the point of view of mechanistic and functional aspects. The chemicals produced from methane are aliphatic and aromatic hydrocarbons such as propylene and benzene, and methanol. These chemicals are created by using homogeneous catalysts, heterogeneous catalysts such as zeolites, and biocatalysts such as enzymes. Various examples of methane conversion reactions that are discussed have been chosen to illustrate how heterogeneous and homogenous catalysts and biocatalysts and/or their reaction environments control the formation of highly energetic species from methane contributing to C-C and C-O bond formation.
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