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IN SITU INFRARED SPECTROSCOPIC STUDY OF PHOTOSTUMULATED CO DESORPTION FROM TITANIUM DIOXIDE SURFACE. / Mikheleva, A.Yu.

СТАРТ В НАУКЕ - 2022 : сборник статей II Международного научно-исследовательского конкурса : в 2 ч. Часть 2. ed. / И.И. Ивановская; М.В. Поснова. Петрозаводск : Новая наука, 2022. p. 250-258.

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Mikheleva, AY 2022, IN SITU INFRARED SPECTROSCOPIC STUDY OF PHOTOSTUMULATED CO DESORPTION FROM TITANIUM DIOXIDE SURFACE. in ИИ Ивановская & МВ Поснова (eds), СТАРТ В НАУКЕ - 2022 : сборник статей II Международного научно-исследовательского конкурса : в 2 ч. Часть 2. Новая наука, Петрозаводск , pp. 250-258, II Международный научно-исследовательский конкурс "СТАРТ В НАУКЕ - 2022", Петрозаводск, Russian Federation, 14/11/22. <https://sciencen.org/assets/Kontent/Konkursy/Arhiv-konkursov/NIK-221-CHast-2.pdf>

APA

Mikheleva, A. Y. (2022). IN SITU INFRARED SPECTROSCOPIC STUDY OF PHOTOSTUMULATED CO DESORPTION FROM TITANIUM DIOXIDE SURFACE. In И. И. Ивановская, & М. В. Поснова (Eds.), СТАРТ В НАУКЕ - 2022 : сборник статей II Международного научно-исследовательского конкурса : в 2 ч. Часть 2 (pp. 250-258). Новая наука. https://sciencen.org/assets/Kontent/Konkursy/Arhiv-konkursov/NIK-221-CHast-2.pdf

Vancouver

Mikheleva AY. IN SITU INFRARED SPECTROSCOPIC STUDY OF PHOTOSTUMULATED CO DESORPTION FROM TITANIUM DIOXIDE SURFACE. In Ивановская ИИ, Поснова МВ, editors, СТАРТ В НАУКЕ - 2022 : сборник статей II Международного научно-исследовательского конкурса : в 2 ч. Часть 2. Петрозаводск : Новая наука. 2022. p. 250-258

Author

Mikheleva, A.Yu. / IN SITU INFRARED SPECTROSCOPIC STUDY OF PHOTOSTUMULATED CO DESORPTION FROM TITANIUM DIOXIDE SURFACE. СТАРТ В НАУКЕ - 2022 : сборник статей II Международного научно-исследовательского конкурса : в 2 ч. Часть 2. editor / И.И. Ивановская ; М.В. Поснова. Петрозаводск : Новая наука, 2022. pp. 250-258

BibTeX

@inproceedings{07bcdabba7cb495faaa1b42d9669419c,
title = "IN SITU INFRARED SPECTROSCOPIC STUDY OF PHOTOSTUMULATED CO DESORPTION FROM TITANIUM DIOXIDE SURFACE",
abstract = "In this study the process of the CO desorption from the titania surface under ultraviolet irradiation at room temperature was studied by IR spectroscopy and volumetry methods. The obtained experimental data showed the UV-exposure induces the decrease in the amount of adsorbed CO molecules on the surface. Moreover, the desorption reaction rates were determined for the observed process and its dependencies on the initial adsorbate pressure and on the light irradiance were acquired. In addition, the plausible mechanism was suggested to describe the process in details.",
author = "A.Yu. Mikheleva",
year = "2022",
language = "English",
isbn = "978-5-00174-764-2",
pages = "250--258",
editor = "И.И. Ивановская and М.В. Поснова",
booktitle = "СТАРТ В НАУКЕ - 2022",
publisher = "Новая наука",
address = "Russian Federation",
note = "null ; Conference date: 14-11-2022 Through 14-11-2022",
url = "https://disk.yandex.ru/i/agWqq13Rx7Fi3w",

}

RIS

TY - GEN

T1 - IN SITU INFRARED SPECTROSCOPIC STUDY OF PHOTOSTUMULATED CO DESORPTION FROM TITANIUM DIOXIDE SURFACE

AU - Mikheleva, A.Yu.

PY - 2022

Y1 - 2022

N2 - In this study the process of the CO desorption from the titania surface under ultraviolet irradiation at room temperature was studied by IR spectroscopy and volumetry methods. The obtained experimental data showed the UV-exposure induces the decrease in the amount of adsorbed CO molecules on the surface. Moreover, the desorption reaction rates were determined for the observed process and its dependencies on the initial adsorbate pressure and on the light irradiance were acquired. In addition, the plausible mechanism was suggested to describe the process in details.

AB - In this study the process of the CO desorption from the titania surface under ultraviolet irradiation at room temperature was studied by IR spectroscopy and volumetry methods. The obtained experimental data showed the UV-exposure induces the decrease in the amount of adsorbed CO molecules on the surface. Moreover, the desorption reaction rates were determined for the observed process and its dependencies on the initial adsorbate pressure and on the light irradiance were acquired. In addition, the plausible mechanism was suggested to describe the process in details.

UR - https://www.elibrary.ru/item.asp?id=49756621&pff=1

M3 - Conference contribution

SN - 978-5-00174-764-2

SP - 250

EP - 258

BT - СТАРТ В НАУКЕ - 2022

A2 - Ивановская, И.И.

A2 - Поснова, М.В.

PB - Новая наука

CY - Петрозаводск

Y2 - 14 November 2022 through 14 November 2022

ER -

ID: 100304202