Silica-Related Catalysts for CO<sub<2</sub< Transformation into Methanol and Dimethyl Ether

The climate situation that the planet is experiencing, mainly due to the emission of greenhouse gases, poses great challenges to mitigate it. Since CO<sub<2</sub< is the most abundant greenhouse gas, it is essential to reduce its emissions or, failing that, to use it to obtain chemicals...
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Autor*in:	Isabel Barroso-Martín [verfasserIn] Antonia Infantes-Molina [verfasserIn] Fatemeh Jafarian Fini [verfasserIn] Daniel Ballesteros-Plata [verfasserIn] Enrique Rodríguez-Castellón [verfasserIn] Elisa Moretti [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2020

Schlagwörter:	CO methanol dimethyl ether silica clay zeolites

Übergeordnetes Werk:	In: Catalysts - MDPI AG, 2012, 10(2020), 11, p 1282
Übergeordnetes Werk:	volume:10 ; year:2020 ; number:11, p 1282

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/catal10111282

Katalog-ID:	DOAJ01280701X

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language	English
source	In Catalysts 10(2020), 11, p 1282 volume:10 year:2020 number:11, p 1282
sourceStr	In Catalysts 10(2020), 11, p 1282 volume:10 year:2020 number:11, p 1282
format_phy_str_mv	Article
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topic_facet	CO<sub<2</sub< methanol dimethyl ether silica clay zeolites Chemical technology Chemistry
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container_title	Catalysts
authorswithroles_txt_mv	Isabel Barroso-Martín @@aut@@ Antonia Infantes-Molina @@aut@@ Fatemeh Jafarian Fini @@aut@@ Daniel Ballesteros-Plata @@aut@@ Enrique Rodríguez-Castellón @@aut@@ Elisa Moretti @@aut@@
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callnumber-first	T - Technology
author	Isabel Barroso-Martín
spellingShingle	Isabel Barroso-Martín misc TP1-1185 misc QD1-999 misc CO<sub<2</sub< misc methanol misc dimethyl ether misc silica misc clay misc zeolites misc Chemical technology misc Chemistry Silica-Related Catalysts for CO<sub<2</sub< Transformation into Methanol and Dimethyl Ether
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topic_title	TP1-1185 QD1-999 Silica-Related Catalysts for CO<sub<2</sub< Transformation into Methanol and Dimethyl Ether CO<sub<2</sub< methanol dimethyl ether silica clay zeolites
topic	misc TP1-1185 misc QD1-999 misc CO<sub<2</sub< misc methanol misc dimethyl ether misc silica misc clay misc zeolites misc Chemical technology misc Chemistry
topic_unstemmed	misc TP1-1185 misc QD1-999 misc CO<sub<2</sub< misc methanol misc dimethyl ether misc silica misc clay misc zeolites misc Chemical technology misc Chemistry
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title	Silica-Related Catalysts for CO<sub<2</sub< Transformation into Methanol and Dimethyl Ether
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title_full	Silica-Related Catalysts for CO<sub<2</sub< Transformation into Methanol and Dimethyl Ether
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title_sort	silica-related catalysts for co<sub<2</sub< transformation into methanol and dimethyl ether
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title_auth	Silica-Related Catalysts for CO<sub<2</sub< Transformation into Methanol and Dimethyl Ether
abstract	The climate situation that the planet is experiencing, mainly due to the emission of greenhouse gases, poses great challenges to mitigate it. Since CO<sub<2</sub< is the most abundant greenhouse gas, it is essential to reduce its emissions or, failing that, to use it to obtain chemicals of industrial interest. In recent years, much research have focused on the use of CO<sub<2</sub< to obtain methanol, which is a raw material for the synthesis of several important chemicals, and dimethyl ether, which is advertised as the cleanest and highest efficiency diesel substitute fuel. Given that the bibliography on these catalytic reactions is already beginning to be extensive, and due to the great variety of catalysts studied by the different research groups, this review aims to expose the most important catalytic characteristics to take into account in the design of silica-based catalysts for the conversion of carbon dioxide to methanol and dimethyl ether.
abstractGer	The climate situation that the planet is experiencing, mainly due to the emission of greenhouse gases, poses great challenges to mitigate it. Since CO<sub<2</sub< is the most abundant greenhouse gas, it is essential to reduce its emissions or, failing that, to use it to obtain chemicals of industrial interest. In recent years, much research have focused on the use of CO<sub<2</sub< to obtain methanol, which is a raw material for the synthesis of several important chemicals, and dimethyl ether, which is advertised as the cleanest and highest efficiency diesel substitute fuel. Given that the bibliography on these catalytic reactions is already beginning to be extensive, and due to the great variety of catalysts studied by the different research groups, this review aims to expose the most important catalytic characteristics to take into account in the design of silica-based catalysts for the conversion of carbon dioxide to methanol and dimethyl ether.
abstract_unstemmed	The climate situation that the planet is experiencing, mainly due to the emission of greenhouse gases, poses great challenges to mitigate it. Since CO<sub<2</sub< is the most abundant greenhouse gas, it is essential to reduce its emissions or, failing that, to use it to obtain chemicals of industrial interest. In recent years, much research have focused on the use of CO<sub<2</sub< to obtain methanol, which is a raw material for the synthesis of several important chemicals, and dimethyl ether, which is advertised as the cleanest and highest efficiency diesel substitute fuel. Given that the bibliography on these catalytic reactions is already beginning to be extensive, and due to the great variety of catalysts studied by the different research groups, this review aims to expose the most important catalytic characteristics to take into account in the design of silica-based catalysts for the conversion of carbon dioxide to methanol and dimethyl ether.
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title_short	Silica-Related Catalysts for CO<sub<2</sub< Transformation into Methanol and Dimethyl Ether
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