Self-dispersible nanocrystals of azoxystrobin and cyproconazole with increased efficacy against soilborne fungal pathogens isolated from peanut crops

Boris X. Camiletti; Nahuel M. Camacho; Alejandro J. Paredes; Daniel A. Allemandi; Santiago D. Palma; Nelson R. Grosso

doi:10.1016/j.powtec.2020.06.025

Self-dispersible nanocrystals of azoxystrobin and cyproconazole with increased efficacy against soilborne fungal pathogens isolated from peanut crops

Boris X. Camiletti, Nahuel M. Camacho, Alejandro J. Paredes, Daniel A. Allemandi, Santiago D. Palma, Nelson R. Grosso

Research output: Contribution to journal › Article › peer-review

Abstract

Self-dispersible nanocrystals of azoxystrobin and cyproconazole were obtained by combining wet bead milling and spray-drying. Nanocrystals formulations were characterized and evaluated by their antifungal activity against S. minor and S. rolfsii. The mean particle sizes of azoxystrobin and cyproconazole nanosuspensions were 172.78 and 277.37 nm. Milling rotational frequency and milling time were the most significant process parameters. The contents of azoxystrobin and cyproconazole in their solid formulations were 45.3 and 43.3% w/w. Spray-drying increased the particle size of fungicide nanocrystals (azoxystrobin, 323.68 nm; cyproconazole, 456.53 nm). The method of production showed a solid yield of 44.5% for azoxystrobin and 34.5% for cyproconazole. The methodology used in this study does not affect the crystallinity of fungicides. Nanocrystal formulations remarkably improved the performance of fungicides and have no negative consequences on peanut growth. The use of self-dispersible nanocrystals is presented as a potential technology to increase the efficacy of fungicides.

Original language	English (US)
Pages (from-to)	455-465
Number of pages	11
Journal	Powder Technology
Volume	372
DOIs	https://doi.org/10.1016/j.powtec.2020.06.025
State	Published - Jul 15 2020
Externally published	Yes

Keywords

Antifungal activity
Bead milling
Fungicide
Nanocrystals
Nanotechnology
Spray drying

ASJC Scopus subject areas

General Chemical Engineering

Online availability

10.1016/j.powtec.2020.06.025

Library availability

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@article{1bb772a1349d4e419b8f22175e00a26e,

title = "Self-dispersible nanocrystals of azoxystrobin and cyproconazole with increased efficacy against soilborne fungal pathogens isolated from peanut crops",

abstract = "Self-dispersible nanocrystals of azoxystrobin and cyproconazole were obtained by combining wet bead milling and spray-drying. Nanocrystals formulations were characterized and evaluated by their antifungal activity against S. minor and S. rolfsii. The mean particle sizes of azoxystrobin and cyproconazole nanosuspensions were 172.78 and 277.37 nm. Milling rotational frequency and milling time were the most significant process parameters. The contents of azoxystrobin and cyproconazole in their solid formulations were 45.3 and 43.3% w/w. Spray-drying increased the particle size of fungicide nanocrystals (azoxystrobin, 323.68 nm; cyproconazole, 456.53 nm). The method of production showed a solid yield of 44.5% for azoxystrobin and 34.5% for cyproconazole. The methodology used in this study does not affect the crystallinity of fungicides. Nanocrystal formulations remarkably improved the performance of fungicides and have no negative consequences on peanut growth. The use of self-dispersible nanocrystals is presented as a potential technology to increase the efficacy of fungicides.",

keywords = "Antifungal activity, Bead milling, Fungicide, Nanocrystals, Nanotechnology, Spray drying",

author = "Camiletti, {Boris X.} and Camacho, {Nahuel M.} and Paredes, {Alejandro J.} and Allemandi, {Daniel A.} and Palma, {Santiago D.} and Grosso, {Nelson R.}",

note = "The authors are grateful to Ricardo J. Haro from INTA EEA Manfredi for providing fungal isolates and Laboratorios Peyte S.A . for having kindly donated the fungicides. We would like to acknowledge Egbert Kleinert from Saint-Gobain Ceramics for the advice and the kind donation of zirconia beads. The technical assistance of Lamarx-UNC in the scanning electron microscopy assays is also acknowledged. B. X. Camiletti holds a Postdoctoral Fellowship launched by the Argentinean National Scientific and Technical Research Council (CONICET). The authors are grateful to Ricardo J. Haro from INTA EEA Manfredi for providing fungal isolates and Laboratorios Peyte S.A. for having kindly donated the fungicides. We would like to acknowledge Egbert Kleinert from Saint-Gobain Ceramics for the advice and the kind donation of zirconia beads. The technical assistance of Lamarx-UNC in the scanning electron microscopy assays is also acknowledged. B. X. Camiletti holds a Postdoctoral Fellowship launched by the Argentinean National Scientific and Technical Research Council (CONICET).",

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doi = "10.1016/j.powtec.2020.06.025",

language = "English (US)",

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AU - Camiletti, Boris X.

AU - Camacho, Nahuel M.

AU - Paredes, Alejandro J.

AU - Allemandi, Daniel A.

AU - Palma, Santiago D.

AU - Grosso, Nelson R.

N1 - The authors are grateful to Ricardo J. Haro from INTA EEA Manfredi for providing fungal isolates and Laboratorios Peyte S.A . for having kindly donated the fungicides. We would like to acknowledge Egbert Kleinert from Saint-Gobain Ceramics for the advice and the kind donation of zirconia beads. The technical assistance of Lamarx-UNC in the scanning electron microscopy assays is also acknowledged. B. X. Camiletti holds a Postdoctoral Fellowship launched by the Argentinean National Scientific and Technical Research Council (CONICET). The authors are grateful to Ricardo J. Haro from INTA EEA Manfredi for providing fungal isolates and Laboratorios Peyte S.A. for having kindly donated the fungicides. We would like to acknowledge Egbert Kleinert from Saint-Gobain Ceramics for the advice and the kind donation of zirconia beads. The technical assistance of Lamarx-UNC in the scanning electron microscopy assays is also acknowledged. B. X. Camiletti holds a Postdoctoral Fellowship launched by the Argentinean National Scientific and Technical Research Council (CONICET).

PY - 2020/7/15

Y1 - 2020/7/15

N2 - Self-dispersible nanocrystals of azoxystrobin and cyproconazole were obtained by combining wet bead milling and spray-drying. Nanocrystals formulations were characterized and evaluated by their antifungal activity against S. minor and S. rolfsii. The mean particle sizes of azoxystrobin and cyproconazole nanosuspensions were 172.78 and 277.37 nm. Milling rotational frequency and milling time were the most significant process parameters. The contents of azoxystrobin and cyproconazole in their solid formulations were 45.3 and 43.3% w/w. Spray-drying increased the particle size of fungicide nanocrystals (azoxystrobin, 323.68 nm; cyproconazole, 456.53 nm). The method of production showed a solid yield of 44.5% for azoxystrobin and 34.5% for cyproconazole. The methodology used in this study does not affect the crystallinity of fungicides. Nanocrystal formulations remarkably improved the performance of fungicides and have no negative consequences on peanut growth. The use of self-dispersible nanocrystals is presented as a potential technology to increase the efficacy of fungicides.

AB - Self-dispersible nanocrystals of azoxystrobin and cyproconazole were obtained by combining wet bead milling and spray-drying. Nanocrystals formulations were characterized and evaluated by their antifungal activity against S. minor and S. rolfsii. The mean particle sizes of azoxystrobin and cyproconazole nanosuspensions were 172.78 and 277.37 nm. Milling rotational frequency and milling time were the most significant process parameters. The contents of azoxystrobin and cyproconazole in their solid formulations were 45.3 and 43.3% w/w. Spray-drying increased the particle size of fungicide nanocrystals (azoxystrobin, 323.68 nm; cyproconazole, 456.53 nm). The method of production showed a solid yield of 44.5% for azoxystrobin and 34.5% for cyproconazole. The methodology used in this study does not affect the crystallinity of fungicides. Nanocrystal formulations remarkably improved the performance of fungicides and have no negative consequences on peanut growth. The use of self-dispersible nanocrystals is presented as a potential technology to increase the efficacy of fungicides.

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KW - Bead milling

KW - Fungicide

KW - Nanocrystals

KW - Nanotechnology

KW - Spray drying

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ER -

Self-dispersible nanocrystals of azoxystrobin and cyproconazole with increased efficacy against soilborne fungal pathogens isolated from peanut crops

Abstract

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