Controlling the Product Platform of Carbon Dioxide Reduction: Adaptive Catalytic Hydrosilylation of CO2 Using a Molecular Cobalt(II) Triazine Complex

The catalytic reduction of carbon dioxide (CO2) is considered a major pillar of future sustainable energy systems and chemical industries based on renewable energy and raw materials. Typically, catalysts and catalytic systems are transforming CO2 preferentially or even exclusively to one of the poss...

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Published in	Angewandte Chemie International Edition Vol. 59; no. 36; pp. 15674 - 15681
Main Authors	Cramer, Hanna H., Chatterjee, Basujit, Weyhermüller, Thomas, Werlé, Christophe, Leitner, Walter
Format	Journal Article
Language	English
Published	Weinheim Wiley Subscription Services, Inc 01.09.2020 John Wiley and Sons Inc
Edition	International ed. in English
Subjects	Adaptive systems Carbon dioxide Catalysts Chemical industry Chemical reduction CO2 reduction Cobalt cobalt catalysts Formic acid homogeneous catalysis Hydrosilylation pincer ligands Raw materials Renewable energy Sustainability Triazine
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Abstract	The catalytic reduction of carbon dioxide (CO2) is considered a major pillar of future sustainable energy systems and chemical industries based on renewable energy and raw materials. Typically, catalysts and catalytic systems are transforming CO2 preferentially or even exclusively to one of the possible reduction levels and are then optimized for this specific product. Here, we report a cobalt‐based catalytic system that enables the adaptive and highly selective transformation of carbon dioxide individually to either the formic acid, the formaldehyde, or the methanol level, demonstrating the possibility of molecular control over the desired product platform. Let it be adaptive: A cobalt‐based molecular system capable of selectively reducing carbon dioxide either to the formic acid, formaldehyde, or methanol level has been developed. This approach shows that molecular control over product formation is possible with suitable catalysts that allow the reaction conditions to be adapted appropriately.
AbstractList	The catalytic reduction of carbon dioxide (CO2 ) is considered a major pillar of future sustainable energy systems and chemical industries based on renewable energy and raw materials. Typically, catalysts and catalytic systems are transforming CO2 preferentially or even exclusively to one of the possible reduction levels and are then optimized for this specific product. Here, we report a cobalt-based catalytic system that enables the adaptive and highly selective transformation of carbon dioxide individually to either the formic acid, the formaldehyde, or the methanol level, demonstrating the possibility of molecular control over the desired product platform. The catalytic reduction of carbon dioxide (CO 2 ) is considered a major pillar of future sustainable energy systems and chemical industries based on renewable energy and raw materials. Typically, catalysts and catalytic systems are transforming CO 2 preferentially or even exclusively to one of the possible reduction levels and are then optimized for this specific product. Here, we report a cobalt‐based catalytic system that enables the adaptive and highly selective transformation of carbon dioxide individually to either the formic acid, the formaldehyde, or the methanol level, demonstrating the possibility of molecular control over the desired product platform. Let it be adaptive : A cobalt‐based molecular system capable of selectively reducing carbon dioxide either to the formic acid, formaldehyde, or methanol level has been developed. This approach shows that molecular control over product formation is possible with suitable catalysts that allow the reaction conditions to be adapted appropriately. The catalytic reduction of carbon dioxide (CO2) is considered a major pillar of future sustainable energy systems and chemical industries based on renewable energy and raw materials. Typically, catalysts and catalytic systems are transforming CO2 preferentially or even exclusively to one of the possible reduction levels and are then optimized for this specific product. Here, we report a cobalt‐based catalytic system that enables the adaptive and highly selective transformation of carbon dioxide individually to either the formic acid, the formaldehyde, or the methanol level, demonstrating the possibility of molecular control over the desired product platform. Let it be adaptive: A cobalt‐based molecular system capable of selectively reducing carbon dioxide either to the formic acid, formaldehyde, or methanol level has been developed. This approach shows that molecular control over product formation is possible with suitable catalysts that allow the reaction conditions to be adapted appropriately.
Author	Chatterjee, Basujit Leitner, Walter Cramer, Hanna H. Werlé, Christophe Weyhermüller, Thomas
AuthorAffiliation	2 Institut für Technische und Makromolekulare Chemie (ITMC) RWTH Aachen University Worringer Weg 2 52074 Aachen Germany 3 Ruhr University Bochum Universitätsstr. 150 44801 Bochum Germany 1 Max Planck Institute for Chemical Energy Conversion Stiftstr. 34–36 45470 Mülheim an der Ruhr Germany
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Snippet	The catalytic reduction of carbon dioxide (CO2) is considered a major pillar of future sustainable energy systems and chemical industries based on renewable... The catalytic reduction of carbon dioxide (CO2 ) is considered a major pillar of future sustainable energy systems and chemical industries based on renewable... The catalytic reduction of carbon dioxide (CO 2 ) is considered a major pillar of future sustainable energy systems and chemical industries based on renewable...
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SubjectTerms	Adaptive systems Carbon dioxide Catalysts Chemical industry Chemical reduction CO2 reduction Cobalt cobalt catalysts Formic acid homogeneous catalysis Hydrosilylation pincer ligands Raw materials Renewable energy Sustainability Triazine
Title	Controlling the Product Platform of Carbon Dioxide Reduction: Adaptive Catalytic Hydrosilylation of CO2 Using a Molecular Cobalt(II) Triazine Complex
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