Facile Grignard Reaction Demonstration Using Molecular Sieved Dried Solvent
Methods involving C-C bond formation are continuously being innovated due to their importance in the creation and modification of important organic molecules. The classic Grignard reaction demonstrates C-C bond formation with reagents that are usually accessible in undergraduate laboratory classes....
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2022
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ph-ateneo-arc.chemistry-faculty-pubs-11962023-02-28T06:15:59Z Facile Grignard Reaction Demonstration Using Molecular Sieved Dried Solvent Reyes, Jude M Tumaneng, John Vincent M Yu, Gilbert U Methods involving C-C bond formation are continuously being innovated due to their importance in the creation and modification of important organic molecules. The classic Grignard reaction demonstrates C-C bond formation with reagents that are usually accessible in undergraduate laboratory classes. Oftentimes, to make the Grignard reaction viable, the reactions are assisted by heating at elevated temperatures or with the use of a catalyst accompanied by solvents that have been dried using highly reactive sodium metal (Na0)-conditions which increase the risk of a laboratory fire or explosion. For this work, a method to conduct Grignard reactions under mild conditions utilizing sand-paper-polished Mg ribbons and solvent dried using molecular sieves was developed. The conscientious, accessible, and easy-to-follow preparation of both the solvent and the Mg ribbons is found to contribute more to the percent conversion of reagents to products. The average percent conversion with the proposed method ranged from 76.8% to 99.5% based on 1H NMR results. This makes the Grignard demonstration possible even for the most humid, tropical locations. 2022-01-24T08:00:00Z text https://archium.ateneo.edu/chemistry-faculty-pubs/196 https://doi.org/10.1021/acs.chas.1c00015 Chemistry Faculty Publications Archīum Ateneo aldehyde diethyl ether Grignard reaction Mg ribbons organic chemistry Chemistry Organic Chemistry Physical Sciences and Mathematics |
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aldehyde diethyl ether Grignard reaction Mg ribbons organic chemistry Chemistry Organic Chemistry Physical Sciences and Mathematics |
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aldehyde diethyl ether Grignard reaction Mg ribbons organic chemistry Chemistry Organic Chemistry Physical Sciences and Mathematics Reyes, Jude M Tumaneng, John Vincent M Yu, Gilbert U Facile Grignard Reaction Demonstration Using Molecular Sieved Dried Solvent |
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Methods involving C-C bond formation are continuously being innovated due to their importance in the creation and modification of important organic molecules. The classic Grignard reaction demonstrates C-C bond formation with reagents that are usually accessible in undergraduate laboratory classes. Oftentimes, to make the Grignard reaction viable, the reactions are assisted by heating at elevated temperatures or with the use of a catalyst accompanied by solvents that have been dried using highly reactive sodium metal (Na0)-conditions which increase the risk of a laboratory fire or explosion. For this work, a method to conduct Grignard reactions under mild conditions utilizing sand-paper-polished Mg ribbons and solvent dried using molecular sieves was developed. The conscientious, accessible, and easy-to-follow preparation of both the solvent and the Mg ribbons is found to contribute more to the percent conversion of reagents to products. The average percent conversion with the proposed method ranged from 76.8% to 99.5% based on 1H NMR results. This makes the Grignard demonstration possible even for the most humid, tropical locations. |
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text |
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Reyes, Jude M Tumaneng, John Vincent M Yu, Gilbert U |
author_facet |
Reyes, Jude M Tumaneng, John Vincent M Yu, Gilbert U |
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Reyes, Jude M |
title |
Facile Grignard Reaction Demonstration Using Molecular Sieved Dried Solvent |
title_short |
Facile Grignard Reaction Demonstration Using Molecular Sieved Dried Solvent |
title_full |
Facile Grignard Reaction Demonstration Using Molecular Sieved Dried Solvent |
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Facile Grignard Reaction Demonstration Using Molecular Sieved Dried Solvent |
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Facile Grignard Reaction Demonstration Using Molecular Sieved Dried Solvent |
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facile grignard reaction demonstration using molecular sieved dried solvent |
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Archīum Ateneo |
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2022 |
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https://archium.ateneo.edu/chemistry-faculty-pubs/196 https://doi.org/10.1021/acs.chas.1c00015 |
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