Kinetics and mechanism of decomposition of dibenzoylfuroxane

G. M. Nazin; Назин Г. М.; A. I. Kazakov; Казаков А. И.; A. V. Nabatova; Набатова А. В.; G. V. Shilov; Шилов Г. В.; L. L. Fershtat; Ферштат Л. Л.; A. A. Larin; Ларин А. А.

doi:10.31857/S0207401X25030036

Kinetics and mechanism of decomposition of dibenzoylfuroxane

Authors: Nazin G.M.¹, Kazakov A.I.¹, Nabatova A.V.¹, Shilov G.V.¹, Fershtat L.L.², Larin A.A.²
Affiliations:
1. FRC PCP MC of the Russian Academy of Sciences
2. Zelinsky Institute of Organic Chemistry, Russian Academy of Sciences
Issue: Vol 44, No 3 (2025)
Pages: 28-36
Section: Kinetics and mechanism of chemical reactions, catalysis
URL: https://journals.rcsi.science/0207-401X/article/view/288173
DOI: https://doi.org/10.31857/S0207401X25030036
ID: 288173

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Abstract
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Abstract

The kinetics of decomposition of dibenzoyl furoxane (DBFO) in a melt and in dilute solutions in biphenyl and nitrobenzene at a temperature of 116–141 °C was studied by the calorimetric method. As a result of the decomposition of DBFO, a substance is formed, which by its nature is also furoxane, but differs in a more complex structure and a higher decomposition temperature. The high rate and unusual composition of the decomposition products of DBFO are explained within the framework of the biradical mechanism of decomposition of furoxanes.

Keywords

dibenzoylfuroxane, thermal decomposition, kinetics, mechanism

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About the authors

G. M. Nazin

FRC PCP MC of the Russian Academy of Sciences

Email: akazakov@icp.ac.ru
Russian Federation, Chernogolovka, Moscow region

A. I. Kazakov

FRC PCP MC of the Russian Academy of Sciences

Author for correspondence.
Email: akazakov@icp.ac.ru
Russian Federation, Chernogolovka, Moscow region

A. V. Nabatova

FRC PCP MC of the Russian Academy of Sciences

Email: akazakov@icp.ac.ru
Russian Federation, Chernogolovka, Moscow region

G. V. Shilov

FRC PCP MC of the Russian Academy of Sciences

Email: akazakov@icp.ac.ru
Russian Federation, Chernogolovka, Moscow region

L. L. Fershtat

Zelinsky Institute of Organic Chemistry, Russian Academy of Sciences

Email: akazakov@icp.ac.ru
Russian Federation, Moscow

A. A. Larin

Zelinsky Institute of Organic Chemistry, Russian Academy of Sciences

Email: akazakov@icp.ac.ru
Russian Federation, Moscow

References

V.G. Prokudin, G.M. Nazin, G.B. Manelis, Dokl. Akad. Nauk SSSR. 255, 917 (1980) [in Russian].
G.M. Nazin, A.I. Kazakov, A.V. Nabatova et al., Russ. J. Phys. Chem. B. 18(2), 456 (2024). https://doi.org/10.1134/S1990793124020283
A.I. Kazakov, D.B. Lempert, A.V. Nabatova et al., Russ. J. Phys. Chem. B. 17(3), 673 (2023). https://doi.org/10.1134/S1990793123030041
A.I. Kazakov, D.B. Lempert, A.V. Nabatova et al., Russ. J. Phys. Chem. B. 17(5), 1083 (2023). https://doi.org/10.1134/S1990793123050032
A.I. Kazakov, D.B. Lempert, A.V. Nabatova et al., Russ. J. Phys. Chem. B. 18(2), 436 (2024). https://doi.org/10.1134/S199079312402009X
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D.R. Brittelli, G.A. Boswell Jr. J. Org. Chem. 46, 316 (1981). https://doi.org/10.1021/jo00315a018
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S.W. Benson, Thermochemical Kinetics. (John Wiley and Sons, INC. New York-London-Sydney, 1968).
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2. Fig. 1. Kinetic curves of DBPO decomposition at different temperatures (°C): 1 – 116.0; 2 – 121.4; 3 – 125.4; 4 – 130.8 (m = 20 mg); 5 – 130.8 (m = 200 mg); 6 – 136.2.

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3. Fig. 2. Kinetic curves of DBPO decomposition in a 1% solution in DF at the following temperatures (°C): 1 – 116.0, 2 – 121.4, 3 – 125.4, 4 –130.8.

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4. Fig. 3. Kinetic curves of DBPO decomposition in a 1% solution in NB at the following temperatures (°C): 1 – 116.0, 2 – 121.4, 3 – 125.4, 4 –130.8, 5 – 136.2.

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5. Fig. 4. Kinetic curves of DBPO decomposition at 141.2 °C and m/V = 10–3 g/cm3.

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6. Fig. 5. Kinetic curves of DBPO decomposition in DF solution at 141.2 °C and a concentration of 8.7 · 10-1 mol/l.

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7. Fig. 6. Kinetic curves of decomposition at 209.4 °C of the final product obtained by decomposition of DBPO at 141.2 °C. Points – experiment, lines – calculation using the 1st order equation; 1 – pure DBPO, k1 = 2.3 10–4 s–1; 2 – DBPO solution in NB, k1 = 2.5 10–4 s–1.

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8. Fig. 7. Scheme of the decomposition reaction of DBPO.

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