2021
DOI: 10.1002/open.202000150
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Reaction Mechanisms and Rate Constants of Auto‐Catalytic Urethane Formation and Cleavage Reactions

Abstract: The chemistry of urethanes plays a key role in important industrial processes. Although catalysts are often used, the study of the reactions without added catalysts provides the basis for a deeper understanding. For the non‐catalytic urethane formation and cleavage reactions, the dominating reaction mechanism has long been debated. To our knowledge, the reaction kinetics have not been predicted quantitatively so far. Therefore, we report a new computational study of urethane formation and cleavage reactions. T… Show more

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Cited by 14 publications
(24 citation statements)
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“…Gertig et al [ 312 ] performed a computational study of urethane polymerization/depolymerization coupled with the experimental study of urethane cleavage for non-catalytic systems, assuming the reaction mechanisms presented in the literature. As the authors aimed to study a broad range of reaction conditions, i.e., temperature, alcohol concentration, and reaction medium, they employed the COSMO-RS solvation model for a higher accuracy.…”
Section: Case Studies For Connection Of Computational Chemistry and Kinetic Modelingmentioning
confidence: 99%
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“…Gertig et al [ 312 ] performed a computational study of urethane polymerization/depolymerization coupled with the experimental study of urethane cleavage for non-catalytic systems, assuming the reaction mechanisms presented in the literature. As the authors aimed to study a broad range of reaction conditions, i.e., temperature, alcohol concentration, and reaction medium, they employed the COSMO-RS solvation model for a higher accuracy.…”
Section: Case Studies For Connection Of Computational Chemistry and Kinetic Modelingmentioning
confidence: 99%
“… Global reaction of urethane bond formation being the basis of polyurethane step-growth polymerization. Mechanism of autocatalysis by alcohol molecules as explored by Gertig et al [ 312 ]. …”
Section: Figurementioning
confidence: 99%
“…1,[34][35][36][37][38][39][40][41][42] A key reaction involved in polymer formation is alcoholysis via the HNCO species to produce carbamates. 42,43 The rate of this reaction can be significantly modified in many ways by changing substituents on the RNCO or ROH reactants, [44][45][46] autocatalysis of the reactants, [47][48][49][50][51][52] solvent selection, 50 or via other more efficiently designed catalysts [53][54][55][56] such as organotin. 57,58 It is well established that HNCO will react with water across either the N − − C or C − − O bonds, producing carbamate and imidic acid, respectively.…”
Section: Introductionmentioning
confidence: 99%
“…In addition to these works, there are plenty of examples in the literature of specific R 1 NCO + R 2 OH reactions studied at various levels of theory. 43,50,51,69,70 All of this previous research emphasizes the importance of clearly understanding how substituted RNCO species influence the electronic structure and energetic landscape of the RNCO + H 2 O reactions. Despite its significant importance to industrial chemistry, the literature lacks a comprehensive and reliable theoretical benchmark for this system and a detailed analysis of the relationship between the isocyanate substituents and the electronic structure features of these reactions.…”
Section: Introductionmentioning
confidence: 99%
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