Standard

Highly Defective Dark TiO2 Modified with Pt: Effects of Precursor Nature and Preparation Method on Photocatalytic Properties. / Fakhrutdinova, E. D.; Reutova, O. A.; Bugrova, T. A. et al.

In: Transactions of Tianjin University, Vol. 30, No. 2, 04.2024, p. 198-209.

Research output: Contribution to journalArticlepeer-review

Harvard

Fakhrutdinova, ED, Reutova, OA, Bugrova, TA, Ovsyuk, IY, Kibis, LS, Stonkus, OA, Vasilchenko, DB, Vodyankina, OV & Svetlychnyi, VA 2024, 'Highly Defective Dark TiO2 Modified with Pt: Effects of Precursor Nature and Preparation Method on Photocatalytic Properties', Transactions of Tianjin University, vol. 30, no. 2, pp. 198-209. https://doi.org/10.1007/s12209-024-00388-z

APA

Fakhrutdinova, E. D., Reutova, O. A., Bugrova, T. A., Ovsyuk, I. Y., Kibis, L. S., Stonkus, O. A., Vasilchenko, D. B., Vodyankina, O. V., & Svetlychnyi, V. A. (2024). Highly Defective Dark TiO2 Modified with Pt: Effects of Precursor Nature and Preparation Method on Photocatalytic Properties. Transactions of Tianjin University, 30(2), 198-209. https://doi.org/10.1007/s12209-024-00388-z

Vancouver

Fakhrutdinova ED, Reutova OA, Bugrova TA, Ovsyuk IY, Kibis LS, Stonkus OA et al. Highly Defective Dark TiO2 Modified with Pt: Effects of Precursor Nature and Preparation Method on Photocatalytic Properties. Transactions of Tianjin University. 2024 Apr;30(2):198-209. doi: 10.1007/s12209-024-00388-z

Author

Fakhrutdinova, E. D. ; Reutova, O. A. ; Bugrova, T. A. et al. / Highly Defective Dark TiO2 Modified with Pt: Effects of Precursor Nature and Preparation Method on Photocatalytic Properties. In: Transactions of Tianjin University. 2024 ; Vol. 30, No. 2. pp. 198-209.

BibTeX

@article{46bed0e467184163b31c335bdb51b7c7,
title = "Highly Defective Dark TiO2 Modified with Pt: Effects of Precursor Nature and Preparation Method on Photocatalytic Properties",
abstract = "The study focused on the modification with platinum of dark defective titania obtained via pulsed laser ablation. Both the method of Pt introduction and the nature of the Pt precursor were varied. All samples exhibited similar phase compositions, specific surface areas, and Pt contents. High-resolution transmission electron microscopy coupled with pulsed CO adsorption revealed increased dispersity when photoreduction and the hydroxonitrate complex (Me4N)2[Pt2(OH)2(NO3)8] were used. The sample featured a high content of single-atom species and subnano-sized Pt clusters. The X-ray photoelectron spectroscopy results showed that the photoreduction method facilitated the appearance of a larger number of Pt2+ states, which appeared owing to the strong metal–support interaction (SMSI) effect of the transfer of electron density from the electron-saturated defects on the TiO2 surface to Pt4+. In the hydrogen evolution reaction, samples with a significant fraction of the Pt2+ ionic component, capable of generating short-lived Pt0 single-atom sites under irradiation due to the SMSI effect, exhibited the highest photocatalytic activity. The 0.5Pt(C)/TiO2–Ph sample exhibited the highest hydrogen yield with a quantum efficiency of 0.53, retaining its activity even after 8 h of operation.",
keywords = "Dark (black) TiO2, Hydrogen evolution reaction, Photocatalysis, Platinum reduction method, Precursor type, Pulsed laser ablation",
author = "Fakhrutdinova, {E. D.} and Reutova, {O. A.} and Bugrova, {T. A.} and Ovsyuk, {I. Yu} and Kibis, {L. S.} and Stonkus, {O. A.} and Vasilchenko, {D. B.} and Vodyankina, {O. V.} and Svetlychnyi, {V. A.}",
note = "The authors thank Dr. M. A. Salaev for the language review. The HR TEM experiments were carried out using the facilities of the shared research center “National Center of Investigation of Catalysts” at Boreskov Institute of Catalysis. This work was funded by the Russian Science Foundation (No. 19-73-30026).",
year = "2024",
month = apr,
doi = "10.1007/s12209-024-00388-z",
language = "English",
volume = "30",
pages = "198--209",
journal = "Transactions of Tianjin University",
issn = "1006-4982",
publisher = "Tianjin Daxue/Tianjin University",
number = "2",

}

RIS

TY - JOUR

T1 - Highly Defective Dark TiO2 Modified with Pt: Effects of Precursor Nature and Preparation Method on Photocatalytic Properties

AU - Fakhrutdinova, E. D.

AU - Reutova, O. A.

AU - Bugrova, T. A.

AU - Ovsyuk, I. Yu

AU - Kibis, L. S.

AU - Stonkus, O. A.

AU - Vasilchenko, D. B.

AU - Vodyankina, O. V.

AU - Svetlychnyi, V. A.

N1 - The authors thank Dr. M. A. Salaev for the language review. The HR TEM experiments were carried out using the facilities of the shared research center “National Center of Investigation of Catalysts” at Boreskov Institute of Catalysis. This work was funded by the Russian Science Foundation (No. 19-73-30026).

PY - 2024/4

Y1 - 2024/4

N2 - The study focused on the modification with platinum of dark defective titania obtained via pulsed laser ablation. Both the method of Pt introduction and the nature of the Pt precursor were varied. All samples exhibited similar phase compositions, specific surface areas, and Pt contents. High-resolution transmission electron microscopy coupled with pulsed CO adsorption revealed increased dispersity when photoreduction and the hydroxonitrate complex (Me4N)2[Pt2(OH)2(NO3)8] were used. The sample featured a high content of single-atom species and subnano-sized Pt clusters. The X-ray photoelectron spectroscopy results showed that the photoreduction method facilitated the appearance of a larger number of Pt2+ states, which appeared owing to the strong metal–support interaction (SMSI) effect of the transfer of electron density from the electron-saturated defects on the TiO2 surface to Pt4+. In the hydrogen evolution reaction, samples with a significant fraction of the Pt2+ ionic component, capable of generating short-lived Pt0 single-atom sites under irradiation due to the SMSI effect, exhibited the highest photocatalytic activity. The 0.5Pt(C)/TiO2–Ph sample exhibited the highest hydrogen yield with a quantum efficiency of 0.53, retaining its activity even after 8 h of operation.

AB - The study focused on the modification with platinum of dark defective titania obtained via pulsed laser ablation. Both the method of Pt introduction and the nature of the Pt precursor were varied. All samples exhibited similar phase compositions, specific surface areas, and Pt contents. High-resolution transmission electron microscopy coupled with pulsed CO adsorption revealed increased dispersity when photoreduction and the hydroxonitrate complex (Me4N)2[Pt2(OH)2(NO3)8] were used. The sample featured a high content of single-atom species and subnano-sized Pt clusters. The X-ray photoelectron spectroscopy results showed that the photoreduction method facilitated the appearance of a larger number of Pt2+ states, which appeared owing to the strong metal–support interaction (SMSI) effect of the transfer of electron density from the electron-saturated defects on the TiO2 surface to Pt4+. In the hydrogen evolution reaction, samples with a significant fraction of the Pt2+ ionic component, capable of generating short-lived Pt0 single-atom sites under irradiation due to the SMSI effect, exhibited the highest photocatalytic activity. The 0.5Pt(C)/TiO2–Ph sample exhibited the highest hydrogen yield with a quantum efficiency of 0.53, retaining its activity even after 8 h of operation.

KW - Dark (black) TiO2

KW - Hydrogen evolution reaction

KW - Photocatalysis

KW - Platinum reduction method

KW - Precursor type

KW - Pulsed laser ablation

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85189360144&origin=inward&txGid=59fef7cc04ed46d78ba8e66af5652e67

UR - https://www.mendeley.com/catalogue/bb52aa95-6a00-39bc-9820-67ba339b121a/

U2 - 10.1007/s12209-024-00388-z

DO - 10.1007/s12209-024-00388-z

M3 - Article

VL - 30

SP - 198

EP - 209

JO - Transactions of Tianjin University

JF - Transactions of Tianjin University

SN - 1006-4982

IS - 2

ER -

ID: 61079520