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Abstract
Isocyanates play an essential role in modern manufacturing processes, especially in polyurethane production. There are numerous synthesis strategies for isocyanates both in industrial and laboratory conditions, which do not prevent searching for alternative highly efficient synthetic protocols. Here, we report a detailed theoretical investigation of the mechanism of sulfur dioxide-catalyzed rearrangement of the phenylnitrile oxide into phenyl isocyanate, which was first reported in 1977. The DLPNO-CCSD(T) method and up-to-date DFT protocols were used to perform a highly accurate quantum-chemical study of the rearrangement mechanism. An overview of various organic and inorganic catalysts has revealed other potential catalysts, such as sulfur trioxide and selenium dioxide. Furthermore, the present study elucidated how substituents in phenylnitrile oxide influence reaction kinetics. This study was performed by a self-organized collaboration of scientists initiated by a humorous post on the VK social network.
Supplementary materials
Title
Computational result
Description
This PDF contains detailed description of the calculations performed, detailed outline of results obtained, reaction pathways for all calculated reactions, and XYZ structures along the reaction pathways at all levels of theory.
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Additional data and videos
Description
Here, are the Excel sheets with some processed data and videos visualizing the reaction from IRC and MTD simulations.
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Supplementary weblinks
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Original Git Repository
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An original repository, that contains unprocessed results of the research.
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