Unraveling the effect of water and ethanol on ibuprofen nanoparticles formation

M. G. Anagha; Piotr Kubisiak; Paulina Chytrosz-Wróbel; Monika Gołda-Cępa; Lukasz Cwiklik; Waldemar Kulig; Andrzej Kotarba

doi:10.1016/j.molliq.2025.127563

Unraveling the effect of water and ethanol on ibuprofen nanoparticles formation

M. G. Anagha, Piotr Kubisiak, Paulina Chytrosz-Wróbel, Monika Gołda-Cępa, Lukasz Cwiklik, Waldemar Kulig, Andrzej Kotarba

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Sammanfattning

In this study, we investigate how water and ethanol affect the formation of ibuprofen sodium salt nanoparticles. Particle sizes were measured with the use of Nanoparticle Tracking Analysis and Transmission Electron Microscopy at concentrations of 30, 50, and 80 mg/mL. In water, nanoparticles had an average size of 93 nm, whereas in ethanol they were significantly smaller, averaging 36 nm. Molecular dynamics simulations revealed that in water, ibuprofen molecules aggregate into clusters of 80–300 molecules. In ethanol, stronger ibuprofen-ethanol interactions lead to the formation of much smaller clusters of 2–3 molecules. Both experimental data and simulations indicate that ethanol is a superior solvent for ibuprofen nanosizing. These findings provide a rational basis for selecting solvents in drug formulation and offer a broader perspective for optimizing drug delivery applications.

Originalspråk	engelska
Artikelnummer	127563
Tidskrift	Journal of Molecular Liquids
Volym	428
ISSN	0167-7322
DOI	https://doi.org/10.1016/j.molliq.2025.127563
Status	Publicerad - 15 juni 2025
MoE-publikationstyp	A1 Tidskriftsartikel-refererad

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© 2025 The Author(s)

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1-s2.0-S0167732225007305-mainSlutlig publicerad version, 6,65 MBLicens: CC BY

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title = "Unraveling the effect of water and ethanol on ibuprofen nanoparticles formation",

abstract = "In this study, we investigate how water and ethanol affect the formation of ibuprofen sodium salt nanoparticles. Particle sizes were measured with the use of Nanoparticle Tracking Analysis and Transmission Electron Microscopy at concentrations of 30, 50, and 80 mg/mL. In water, nanoparticles had an average size of 93 nm, whereas in ethanol they were significantly smaller, averaging 36 nm. Molecular dynamics simulations revealed that in water, ibuprofen molecules aggregate into clusters of 80–300 molecules. In ethanol, stronger ibuprofen-ethanol interactions lead to the formation of much smaller clusters of 2–3 molecules. Both experimental data and simulations indicate that ethanol is a superior solvent for ibuprofen nanosizing. These findings provide a rational basis for selecting solvents in drug formulation and offer a broader perspective for optimizing drug delivery applications.",

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AU - Anagha, M. G.

AU - Kubisiak, Piotr

AU - Chytrosz-Wróbel, Paulina

AU - Gołda-Cępa, Monika

AU - Cwiklik, Lukasz

AU - Kulig, Waldemar

AU - Kotarba, Andrzej

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AB - In this study, we investigate how water and ethanol affect the formation of ibuprofen sodium salt nanoparticles. Particle sizes were measured with the use of Nanoparticle Tracking Analysis and Transmission Electron Microscopy at concentrations of 30, 50, and 80 mg/mL. In water, nanoparticles had an average size of 93 nm, whereas in ethanol they were significantly smaller, averaging 36 nm. Molecular dynamics simulations revealed that in water, ibuprofen molecules aggregate into clusters of 80–300 molecules. In ethanol, stronger ibuprofen-ethanol interactions lead to the formation of much smaller clusters of 2–3 molecules. Both experimental data and simulations indicate that ethanol is a superior solvent for ibuprofen nanosizing. These findings provide a rational basis for selecting solvents in drug formulation and offer a broader perspective for optimizing drug delivery applications.

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KW - Molecular dynamics simulations

KW - Nanoparticles

KW - Nanosizing

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