Kinetics of Uncatalyzed Reactions of 2,4′- and 4,4′-Diphenylmethane-Diisocyanate with Primary and Secondary Alcohols

Nagy, Lajos; Nagy, Tibor; Kuki, Ákos; Purgel, Mihály; Zsuga, Miklós; Kéki, Sándor

doi:10.1002/kin.21104

Cited by 17 publications

(19 citation statements)

References 36 publications

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“…Alcohols containing ether groups such as DEGME and 3‐MeO show decreased reactivity towards 2,6‐TDI. Similar observations were found for the reaction of 4,4‘‐ diphenylmethane‐diisocyanate (4,4‘‐MDI) and 2,4‐TDI with DEGME and 3‐MeO. Furthermore, secondary alcohols, most likely due to a steric effect, were observed to react ca.…”

Section: Resultssupporting

confidence: 80%

“…As seen in Figure , under the applied chromatographic conditions, all of the products formed in the reaction are well separated, thus making quantification of these compounds possible. Furthermore, both in this study and in our previous reports,, the UV‐Vis properties of aromatic carbamates are found to be strongly independent of the reacting alcohols; that is, the molar absorption coefficient is the same for each product formed by methanol quenching. Hence, the corresponding molar fraction for the products can easily be calculated as shown in the Experimental section.…”

Section: Resultssupporting

confidence: 78%

“…However, to answer this question adequately, the experimental conditions under which the kinetics of these reactions are studied should be very similar. Fortunately, our previous kinetic studies on the uncatalysed reaction of 4,4’‐MDI and 2,4‐MDI with alcohols, most of which were also applied in this study, were performed under the same experimental conditions, allowing a direct comparison of the reactivity of these alcohols towards these different aromatic diisocyanates. The relative reactivities of the alcohols (r) were evaluated relative to that of 1‐propanol as the reference as shown by eq.…”

Section: Resultsmentioning

confidence: 99%

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Reactions of 2,6‐Toluene Diisocyanate with Alcohols: Kinetic Studies in the Absence and Presence of Catalysts

Nagy

Kuki

et al. 2017

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The kinetics of the reaction between 2,6‐toluene diisocyanate (2,6‐TDI) and alcohols with varying carbon chain lengths and a primary or secondary hydroxyl group in the absence and presence of tin(II) 2‐ethylhexanoate (TEH) as a catalyst were studied. The alcohols were applied in high molar excess relative to 2,6‐TDI to obtain a pseudo‐first‐order dependence on 2,6‐TDI. Based on the kinetic results, it was found that (i) 2,6‐TDI reacts faster with alcohols with longer carbon chains than those with shorter ones, (ii) secondary alcohols are approximately 3 times less reactive towards 2,6‐TDI than primary ones, and (iii) after the first isocyanate group has been reacted, the reactivity of the remaining isocyanate group decreases. Furthermore, the rate constants were found to depend linearly on catalyst concentration.

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Section: Resultssupporting

confidence: 80%

Section: Resultssupporting

confidence: 78%

Section: Resultsmentioning

confidence: 99%

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Reactions of 2,6‐Toluene Diisocyanate with Alcohols: Kinetic Studies in the Absence and Presence of Catalysts

Nagy

Kuki

et al. 2017

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“…The products of the methanol-quenched reactions are denoted as XDI_1,3, XDI_1,3R, and XDI_1R,3R. In order to calculate the relative concentrations of the products, i.e., the corresponding molar fractions (X i ), the peak areas obtained from HPLC-PDA measurements at λ = 210 nm were used similarly to those reported in our previous works [17,18]. The molar fractions of the unreacted (X XDI_1,3 ), the one-substituted (X XDI_1,3R , one of two isocyanate groups has reacted) and the two-substituted (X XDI_1R,3R , both isocyanate groups has reacted) 1,3-XDI come as given by Equations (1)- 3:…”

Section: Assessment Of the Kinetic Datamentioning

confidence: 99%

“…In this work, the following tasks were performed: (i) The effect of the length of the alkyl chain of primary alcohols on the reaction rate coefficient. (ii) The reactivity of 1,3-XDI towards alcohols and polyols, especially concerning those of MDI and TDI (To obtain comparable kinetic data, the same reaction conditions were used in this study as those applied for other diisocyanate-alcohol reactions [17,18]). (iii) Prediction of the product distribution in the 1,3-XDI-polyol reactions using the kinetic data obtained in the reaction of 1,3-XDI with alcohol mimicking the chain-end of the given polyol.…”

Section: Introductionmentioning

confidence: 99%

Uncatalyzed urethane forming reaction of 1,3-xylylene diisocyanate with aliphatic alcohols of varying chain lengths and polyols

Nagy¹,

Juhász²,

Zsuga³

2020

Express Polym. Lett.

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In this article, we report a detailed study on the kinetics of the reaction of 1,3-xylylene diisocyanate (1,3-XDI) with alcohols of varying alkyl chain lengths and with low molecular weight polyols such as monomethoxylated polyethylene glycol (mPEG) and polytetrahydrofuran (PTHF) in toluene, in the absence of a catalyst. It was found that the pseudo-firstorder rate coefficient increased with the increasing alkyl chain length (k 1,app was found to be 0.0166 and 0.0341 min-1 for 1-propanol and 1-hexanol, respectively) and the reactivities of the 1,3-xylyene diisocyanate towards the alcohols and polyols are between those of the aromatic and alkyl isocyanates. The activation energies were also determined and were found to vary from 25.6 to 38.6 kJ/mol (from 1-propanol to 1-hexanol). According to further kinetic studies, the rate coefficients k 1,app and k 2,app for the reaction of 1,3-XDI with PTHF were determined to be (1.13±0.01)•10-2 and (1.28±0.01)•10-2 min-1 , respectively. It was also found that the rate constants did not depend significantly on the length of the polymer chain. However, significantly lower rate coefficients were obtained for the 1,3-XDI-mPEG reaction (k 1,app = (2.64±0.03)•10-3 min-1 and k 2,app = (2.45±0.03)•10-3 min-1). Besides, the dependence of the pseudo-first-order rate coefficient on the concentration of the alcohols was also studied, and based on these findings a reaction mechanism is proposed.

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Simulation approach for characterizing the isocyanates reactivity in polyurethane gel reactions

2022

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Kinetics of Uncatalyzed Reactions of 2,4′- and 4,4′-Diphenylmethane-Diisocyanate with Primary and Secondary Alcohols

Cited by 17 publications

References 36 publications

Reactions of 2,6‐Toluene Diisocyanate with Alcohols: Kinetic Studies in the Absence and Presence of Catalysts

Reactions of 2,6‐Toluene Diisocyanate with Alcohols: Kinetic Studies in the Absence and Presence of Catalysts

Uncatalyzed urethane forming reaction of 1,3-xylylene diisocyanate with aliphatic alcohols of varying chain lengths and polyols

Simulation approach for characterizing the isocyanates reactivity in polyurethane gel reactions

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