Overview of sorption analysis capabilities for meso- and microporous zeolites nanomaterials

In this paper we consider the main application features of the thermal desorption method of inert gases, implemented on the Sorbi MS (Meta, Russia) device, for the analysis of meso- and microporous materials. Recommendations on the choice of measurement modes for stable operation of the Sorbi MS dev...

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Main Authors: S. Tokmeilova, E. V. Maraeva
Format: Article
Language:English
Published: Uralʹskij federalʹnyj universitet imeni pervogo Prezidenta Rossii B.N. Elʹcina 2021-07-01
Series:Chimica Techno Acta
Subjects:
Online Access:https://chimicatechnoacta.ru/article/view/5102
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author S. Tokmeilova
E. V. Maraeva
author_facet S. Tokmeilova
E. V. Maraeva
author_sort S. Tokmeilova
collection DOAJ
description In this paper we consider the main application features of the thermal desorption method of inert gases, implemented on the Sorbi MS (Meta, Russia) device, for the analysis of meso- and microporous materials. Recommendations on the choice of measurement modes for stable operation of the Sorbi MS device are offered (including recommendations on mass, sample preparation mode). The article presents the results of the micropores analysis by the t-plot and Sing method.
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spelling doaj.art-ebc5a7ce1b7543d881eb7a8dc9434c5c2024-12-25T09:36:54ZengUralʹskij federalʹnyj universitet imeni pervogo Prezidenta Rossii B.N. ElʹcinaChimica Techno Acta2411-14142021-07-018310.15826/chimtech.2021.8.3.023997Overview of sorption analysis capabilities for meso- and microporous zeolites nanomaterialsS. Tokmeilova0E. V. Maraeva1Saint Petersburg Electrotechnical University «LETI», Saint PetersburgSaint Petersburg Electrotechnical University «LETI», Saint PetersburgIn this paper we consider the main application features of the thermal desorption method of inert gases, implemented on the Sorbi MS (Meta, Russia) device, for the analysis of meso- and microporous materials. Recommendations on the choice of measurement modes for stable operation of the Sorbi MS device are offered (including recommendations on mass, sample preparation mode). The article presents the results of the micropores analysis by the t-plot and Sing method.https://chimicatechnoacta.ru/article/view/5102microporesmesoporescapillary condensationsorption hysteresis
spellingShingle S. Tokmeilova
E. V. Maraeva
Overview of sorption analysis capabilities for meso- and microporous zeolites nanomaterials
Chimica Techno Acta
micropores
mesopores
capillary condensation
sorption hysteresis
title Overview of sorption analysis capabilities for meso- and microporous zeolites nanomaterials
title_full Overview of sorption analysis capabilities for meso- and microporous zeolites nanomaterials
title_fullStr Overview of sorption analysis capabilities for meso- and microporous zeolites nanomaterials
title_full_unstemmed Overview of sorption analysis capabilities for meso- and microporous zeolites nanomaterials
title_short Overview of sorption analysis capabilities for meso- and microporous zeolites nanomaterials
title_sort overview of sorption analysis capabilities for meso and microporous zeolites nanomaterials
topic micropores
mesopores
capillary condensation
sorption hysteresis
url https://chimicatechnoacta.ru/article/view/5102
work_keys_str_mv AT stokmeilova overviewofsorptionanalysiscapabilitiesformesoandmicroporouszeolitesnanomaterials
AT evmaraeva overviewofsorptionanalysiscapabilitiesformesoandmicroporouszeolitesnanomaterials