Effect of non‐covalent interactions in 2,<scp>5‐di‐Me‐pyrazine‐di‐N</scp>‐oxide ‐ methanol – Carbon nanotube electrocatalytic system

Kulakovskaya, S. I.; Zyubina, T. S.; Zyubin, A. S.; Куликов, А. В.; Ryabenko, A. G.; Золотухина, Е. В.; Dobrovolskiy, Yuriy A.

doi:10.1002/jccs.202200412

Cited by 1 publication

(5 citation statements)

References 39 publications

(182 reference statements)

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“…These factors lead to an increase in the catalytic efficiency of the process at CNTs electrodes compared to GC electrode. A similar effect was observed in [34] when studying the oxidation of Pyr 1 in the presence of MeOH at SWCNT and MWCNT paper electrodes.…”

Section: In the Presence Of Tert-buohsupporting

confidence: 76%

“…When using SWCNT or MWCNT paper electrodes instead of GC electrode the catalytic efficiency of organic substrate (cyclohexanol, isopropanol and methanol) oxidation increases by several times [28][29][30][31][32][33][34]. Feature of the electrocatalytic systems studied in our works [28][29][30][31][32][33][34] is the resemblance of the structures of aromatic di-N-oxides and carbon nanotube paper electrodes. This circumstance facilitates adsorption of aromatic di-N-oxides on the surface of CNT paper electrodes.…”

Section: Introductionmentioning

confidence: 67%

“…Materials, experimental techniques for recording cyclic voltammograms (CVs) and EPR spectra during electrolysis at controlled potentials and quantum chemical modeling techniques were described in detail in our previous works [30][31][32]34].…”

Section: Methodsmentioning

confidence: 99%

“…Optimization of the geometry of the combined system (model cluster with adsorbed molecules) was carried out at fixed coordinates of the model cluster C 54 H 18 (to preserve the surface shape). The positions of carbon and hydrogen atoms in the cluster are fixed on those obtained from free (10, 10) CNT and only the positions of adsorbed molecules were optimized [32][33][34] on the ωB97XD/6-31G (d,p) level.…”

Section: Methodsmentioning

confidence: 99%

“…This circumstance facilitates adsorption of aromatic di-N-oxides on the surface of CNT paper electrodes. Quantum chemical modeling of the adsorption of Pyr 1 and Fc (ferrocene) reference [32], components of the catalytic system (Pyr 1 -MeOH-CNT) and Pyr 1 *MeOH complex on CNT surface [33][34] made it possible to explain the effect of increasing the catalytic efficiency of MeOH oxidation at SWCNT and MWCNT paper electrodes in comparison with GC electrode.…”

Section: Introductionmentioning

confidence: 99%

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Role of non-covalent interactions in 2,5-di-Me-pyrazine-di-N-oxide - tertiary butyl alcohol - single-walled and multi-walled carbon nanotubes electrocatalytic systems

Kulakovskaya,

Zyubina,

Zyubin

et al. 2023

Univers. J. Carbon Res.

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Oxidation of tert-butyl alcohol (tert-BuOH, Me3COH), a compound with a high C-H bond breaking energy in the absence of precious metals or their oxides as catalysts and using metal-free electrodes, is an inexpensive process and is of interest for practical applications in electrocatalysis and sensors. In this work, electrocatalytic systems 2,5-di-Me-pyrazine-di-N-oxide (Pyr1) - tert-BuOH – single - walled (SWCNT) and multi-walled (MWCNT) carbon nanotube paper electrodes in 0.1 M Bu4NClO4 solution in acetonitrile (MeCN) were studied by the methods of cyclic voltammetry, quantum chemical modeling and electron paramagnetic resonance (EPR) electrolysis. Calculaition of energies of non-covalent interactions between the components of the electrocatalytic system in complexes Me3COH*Me3COH, Me3COH*MeCN, Pyr1*Me3COH and the adsorption energy of Me3COH and complexes of Pyr1*Bu4NClO4, Pyr1*Me3COH, Pyr1*MeCN and Me3COH *Bu4NClO4 on CNTs surface using a cluster model describing the surface of conducting carbon nanotubes (10, 10) was performed. The study made it possible to reveal the regularities characteristic of aromatic-di-N-oxide – CNT electrocatalytic systems and to propose a mechanism of tert-BuOH oxidation in the presence of electrochemically generated radical cation Pyr1. The data will be useful at using CNT electrodes in electrocatalytic processes, as well as aromatic di-N-oxide-CNT catalytic systems in electrocatalysis and sensors.

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Section: In the Presence Of Tert-buohsupporting

confidence: 76%