Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy

A spin pH probe technique was used to study the influence of the channel diameter on the EPR spectra of pH-sensitive nitroxide radicals (NR) located in the channels of the mesoporous molecular sieves MCM-41 and SBA-15 with diameters ranging from 2.3 to 8.1 nm. From EPR spectra analysis and the resul...

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Main Authors: Kovaleva, E. G., Molochnikov, L. S., Golovkina, E. L., Hartmann, M., Kirilyuk, A. I., Grigorev, A. I.
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier Science Publishing Company 2013
Subjects:
EPR SPECTROSCOPY
FAST (SLOW) RADICAL MOTION
ORDERED MESOPOROUS MATERIALS
PH-SENSITIVE NITROXIDE RADICALS
ELECTRICAL POTENTIAL
MESOPOROUS MOLECULAR SIEVES
NITROXIDE RADICALS
ORDERED MESOPOROUS
ROTATIONAL CORRELATION TIME
ACIDITY
MESOPOROUS MATERIALS
MOLECULAR SIEVES
PARAMAGNETIC RESONANCE
ELECTRON SPIN RESONANCE SPECTROSCOPY
Mikhail Lomonosov
Online Access:https://elar.usfeu.ru/handle/123456789/8815
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spelling fturalstatefe:oai:elar.usfeu.ru:123456789/8815 2023-06-06T11:56:33+02:00 Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy Kovaleva, E. G. Molochnikov, L. S. Golovkina, E. L. Hartmann, M. Kirilyuk, A. I. Grigorev, A. I. 2013 https://elar.usfeu.ru/handle/123456789/8815 en eng Elsevier Science Publishing Company Kovaleva, E. G. Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy / E. G. Kovaleva, L. S. Molochnikov, E. L. Golovkina [et al.] // Microporous and Mesoporous Materials. – 2013. – Vol. 179. – P. 258-264. 1387-1811 https://elar.usfeu.ru/handle/123456789/8815 info:eu-repo/semantics/restrictedAccess Microporous and Mesoporous Materials EPR SPECTROSCOPY FAST (SLOW) RADICAL MOTION ORDERED MESOPOROUS MATERIALS PH-SENSITIVE NITROXIDE RADICALS ELECTRICAL POTENTIAL MESOPOROUS MOLECULAR SIEVES NITROXIDE RADICALS ORDERED MESOPOROUS ROTATIONAL CORRELATION TIME ACIDITY MESOPOROUS MATERIALS MOLECULAR SIEVES PARAMAGNETIC RESONANCE ELECTRON SPIN RESONANCE SPECTROSCOPY Article info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2013 fturalstatefe 2023-04-16T05:57:04Z A spin pH probe technique was used to study the influence of the channel diameter on the EPR spectra of pH-sensitive nitroxide radicals (NR) located in the channels of the mesoporous molecular sieves MCM-41 and SBA-15 with diameters ranging from 2.3 to 8.1 nm. From EPR spectra analysis and the results of the NR retention by the mesoporous molecular sieves upon washing with an aqueous KCl solution, the regularities of NR molecular location inside the channels were studied. The obtained dependence of the fraction of the radical molecules in the fast motional regime (with the rotational correlation times, τc = 2 × 10-11 s-9 × 10-11s) in the channels of the mesoporous molecular sieves as a function of pH indicates that both NR in the fast and slow motional regime (with τc = 8 × 10 -9s-7 × 10-10s) may be used for estimation of the solution acidity inside the channels and of the near-surface electrical potential. © 2013 Elsevier Inc. All rights reserved. This work was supported by the Research Program of the Ministry of the Education of the Russian Federation (2007-2011). E.G.K. thanks the Program of Cooperation “Mikhail Lomonosov” between the Ministry of Education of Russian Federation and the German Service of Academic Exchanges (DAAD). We are grateful to Dr. G. Chandrasekar for assistance in the synthesis of MMS and their characterization. Appendix A Article in Journal/Newspaper Mikhail Lomonosov Ural State Forest Engineering University (USFEU): Electronic Archive
institution Open Polar
collection Ural State Forest Engineering University (USFEU): Electronic Archive
op_collection_id fturalstatefe
language English
topic EPR SPECTROSCOPY
FAST (SLOW) RADICAL MOTION
ORDERED MESOPOROUS MATERIALS
PH-SENSITIVE NITROXIDE RADICALS
ELECTRICAL POTENTIAL
MESOPOROUS MOLECULAR SIEVES
NITROXIDE RADICALS
ORDERED MESOPOROUS
ROTATIONAL CORRELATION TIME
ACIDITY
MESOPOROUS MATERIALS
MOLECULAR SIEVES
PARAMAGNETIC RESONANCE
ELECTRON SPIN RESONANCE SPECTROSCOPY
spellingShingle EPR SPECTROSCOPY
FAST (SLOW) RADICAL MOTION
ORDERED MESOPOROUS MATERIALS
PH-SENSITIVE NITROXIDE RADICALS
ELECTRICAL POTENTIAL
MESOPOROUS MOLECULAR SIEVES
NITROXIDE RADICALS
ORDERED MESOPOROUS
ROTATIONAL CORRELATION TIME
ACIDITY
MESOPOROUS MATERIALS
MOLECULAR SIEVES
PARAMAGNETIC RESONANCE
ELECTRON SPIN RESONANCE SPECTROSCOPY
Kovaleva, E. G.
Molochnikov, L. S.
Golovkina, E. L.
Hartmann, M.
Kirilyuk, A. I.
Grigorev, A. I.
Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy
topic_facet EPR SPECTROSCOPY
FAST (SLOW) RADICAL MOTION
ORDERED MESOPOROUS MATERIALS
PH-SENSITIVE NITROXIDE RADICALS
ELECTRICAL POTENTIAL
MESOPOROUS MOLECULAR SIEVES
NITROXIDE RADICALS
ORDERED MESOPOROUS
ROTATIONAL CORRELATION TIME
ACIDITY
MESOPOROUS MATERIALS
MOLECULAR SIEVES
PARAMAGNETIC RESONANCE
ELECTRON SPIN RESONANCE SPECTROSCOPY
description A spin pH probe technique was used to study the influence of the channel diameter on the EPR spectra of pH-sensitive nitroxide radicals (NR) located in the channels of the mesoporous molecular sieves MCM-41 and SBA-15 with diameters ranging from 2.3 to 8.1 nm. From EPR spectra analysis and the results of the NR retention by the mesoporous molecular sieves upon washing with an aqueous KCl solution, the regularities of NR molecular location inside the channels were studied. The obtained dependence of the fraction of the radical molecules in the fast motional regime (with the rotational correlation times, τc = 2 × 10-11 s-9 × 10-11s) in the channels of the mesoporous molecular sieves as a function of pH indicates that both NR in the fast and slow motional regime (with τc = 8 × 10 -9s-7 × 10-10s) may be used for estimation of the solution acidity inside the channels and of the near-surface electrical potential. © 2013 Elsevier Inc. All rights reserved. This work was supported by the Research Program of the Ministry of the Education of the Russian Federation (2007-2011). E.G.K. thanks the Program of Cooperation “Mikhail Lomonosov” between the Ministry of Education of Russian Federation and the German Service of Academic Exchanges (DAAD). We are grateful to Dr. G. Chandrasekar for assistance in the synthesis of MMS and their characterization. Appendix A
format Article in Journal/Newspaper
author Kovaleva, E. G.
Molochnikov, L. S.
Golovkina, E. L.
Hartmann, M.
Kirilyuk, A. I.
Grigorev, A. I.
author_facet Kovaleva, E. G.
Molochnikov, L. S.
Golovkina, E. L.
Hartmann, M.
Kirilyuk, A. I.
Grigorev, A. I.
author_sort Kovaleva, E. G.
title Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy
title_short Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy
title_full Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy
title_fullStr Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy
title_full_unstemmed Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy
title_sort dynamics of ph-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by epr spectroscopy
publisher Elsevier Science Publishing Company
publishDate 2013
url https://elar.usfeu.ru/handle/123456789/8815
genre Mikhail Lomonosov
genre_facet Mikhail Lomonosov
op_source Microporous and Mesoporous Materials
op_relation Kovaleva, E. G. Dynamics of pH-sensitive nitroxide radicals in water adsorbed in ordered mesoporous molecular sieves by EPR Spectroscopy / E. G. Kovaleva, L. S. Molochnikov, E. L. Golovkina [et al.] // Microporous and Mesoporous Materials. – 2013. – Vol. 179. – P. 258-264.
1387-1811
https://elar.usfeu.ru/handle/123456789/8815
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1767964021162508288

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