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Theoretical model for Ostwald ripening of nanoparticles with size-linear capture coefficients. / Дубровский, Владимир Германович; Лещенко, Егор Дмитриевич.

In: Nanomaterials, Vol. 15, No. 22, 1719, 13.11.2025.

Research output: Contribution to journalArticlepeer-review

Harvard

Дубровский, ВГ & Лещенко, ЕД 2025, 'Theoretical model for Ostwald ripening of nanoparticles with size-linear capture coefficients', Nanomaterials, vol. 15, no. 22, 1719. https://doi.org/10.3390/nano15221719

APA

Дубровский, В. Г., & Лещенко, Е. Д. (2025). Theoretical model for Ostwald ripening of nanoparticles with size-linear capture coefficients. Nanomaterials, 15(22), [1719]. https://doi.org/10.3390/nano15221719

Vancouver

Дубровский ВГ, Лещенко ЕД. Theoretical model for Ostwald ripening of nanoparticles with size-linear capture coefficients. Nanomaterials. 2025 Nov 13;15(22). 1719. https://doi.org/10.3390/nano15221719

Author

Дубровский, Владимир Германович ; Лещенко, Егор Дмитриевич. / Theoretical model for Ostwald ripening of nanoparticles with size-linear capture coefficients. In: Nanomaterials. 2025 ; Vol. 15, No. 22.

BibTeX

@article{089578187abf4e159c6a7bc0bbcd0689,
title = "Theoretical model for Ostwald ripening of nanoparticles with size-linear capture coefficients",
abstract = "The Ostwald ripening process in 3D and 2D systems has been studied in great detail over decades. In the application to surface nanoislands and nanodroplets, it is usually assumed that the capture coefficients of adatoms by supercritical nanoparticles of size s scale as sα, where the growth index α is smaller than unity. Here, we study theoretically the Ostwald ripening of 3D and 2D nanoparticles whose capture coefficients scale linearly with s. This case includes submonolayer surface islands that compete for the flux of highly diffusive adatoms upon termination of the material influx. We obtain analytical solutions for the size distributions using the Lifshitz-Slezov scaled variables. The distributions over size s and radius R are monotonically decreasing, and satisfy the normalization condition for different values of the Lifshitz-Slezov constant c. The obtained size distributions satisfy the Family-Vicsek scaling hypothesis, although the material influx is switched off. The model is validated by fitting the monotonically decreasing size distributions of Au nanoparticles that serve as catalysts for the vapor-liquid-solid growth of III-V nanowires on silicon substrates.",
keywords = "Ostwald ripening, critical size, kinetic equation, scaling, size distribution",
author = "Дубровский, {Владимир Германович} and Лещенко, {Егор Дмитриевич}",
year = "2025",
month = nov,
day = "13",
doi = "10.3390/nano15221719",
language = "English",
volume = "15",
journal = "Nanomaterials",
issn = "2079-4991",
publisher = "MDPI AG",
number = "22",

}

RIS

TY - JOUR

T1 - Theoretical model for Ostwald ripening of nanoparticles with size-linear capture coefficients

AU - Дубровский, Владимир Германович

AU - Лещенко, Егор Дмитриевич

PY - 2025/11/13

Y1 - 2025/11/13

N2 - The Ostwald ripening process in 3D and 2D systems has been studied in great detail over decades. In the application to surface nanoislands and nanodroplets, it is usually assumed that the capture coefficients of adatoms by supercritical nanoparticles of size s scale as sα, where the growth index α is smaller than unity. Here, we study theoretically the Ostwald ripening of 3D and 2D nanoparticles whose capture coefficients scale linearly with s. This case includes submonolayer surface islands that compete for the flux of highly diffusive adatoms upon termination of the material influx. We obtain analytical solutions for the size distributions using the Lifshitz-Slezov scaled variables. The distributions over size s and radius R are monotonically decreasing, and satisfy the normalization condition for different values of the Lifshitz-Slezov constant c. The obtained size distributions satisfy the Family-Vicsek scaling hypothesis, although the material influx is switched off. The model is validated by fitting the monotonically decreasing size distributions of Au nanoparticles that serve as catalysts for the vapor-liquid-solid growth of III-V nanowires on silicon substrates.

AB - The Ostwald ripening process in 3D and 2D systems has been studied in great detail over decades. In the application to surface nanoislands and nanodroplets, it is usually assumed that the capture coefficients of adatoms by supercritical nanoparticles of size s scale as sα, where the growth index α is smaller than unity. Here, we study theoretically the Ostwald ripening of 3D and 2D nanoparticles whose capture coefficients scale linearly with s. This case includes submonolayer surface islands that compete for the flux of highly diffusive adatoms upon termination of the material influx. We obtain analytical solutions for the size distributions using the Lifshitz-Slezov scaled variables. The distributions over size s and radius R are monotonically decreasing, and satisfy the normalization condition for different values of the Lifshitz-Slezov constant c. The obtained size distributions satisfy the Family-Vicsek scaling hypothesis, although the material influx is switched off. The model is validated by fitting the monotonically decreasing size distributions of Au nanoparticles that serve as catalysts for the vapor-liquid-solid growth of III-V nanowires on silicon substrates.

KW - Ostwald ripening

KW - critical size

KW - kinetic equation

KW - scaling

KW - size distribution

UR - https://www.mendeley.com/catalogue/765e0403-a457-34ae-9c41-3acc23e3571d/

U2 - 10.3390/nano15221719

DO - 10.3390/nano15221719

M3 - Article

C2 - 41295626

VL - 15

JO - Nanomaterials

JF - Nanomaterials

SN - 2079-4991

IS - 22

M1 - 1719

ER -

ID: 144817161