Issue 35, 2022
From the journal:

Nanoscale

Designing the ultrasonic treatment of nanoparticle-dispersions via machine learning

Christina Glaubitz, ORCID logo a   Barbara Rothen-Rutishauser, ORCID logo a   Marco Lattuada, ORCID logo b   Sandor Balog ORCID logo *a  and  Alke Petri-Fink ORCID logo *ab  

* Corresponding authors

a Adolphe Merkle Institute, University of Fribourg, Chemin des Verdiers 4, 1700 Fribourg, Switzerland
E-mail: sandor.balog@unifr.ch, alke.fink@unifr.ch

b Chemistry Department, University of Fribourg, Chemin du Musée 9, 1700 Fribourg, Switzerland

Abstract

Ultrasonication is a widely used and standardized method to redisperse nanopowders in liquids and to homogenize nanoparticle dispersions. One goal of sonication is to disrupt agglomerates without changing the intrinsic physicochemical properties of the primary particles. The outcome of sonication, however, is most of the time uncertain, and quantitative models have been beyond reach. The magnitude of this problem is considerable owing to fact that the efficiency of sonication is not only dependent on the parameters of the actual device, but also on the physicochemical properties such as of the particle dispersion itself. As a consequence, sonication suffers from poor reproducibility. To tackle this problem, we propose to involve machine learning. By focusing on four nanoparticle types in aqueous dispersions, we combine supervised machine learning and dynamic light scattering to analyze the aggregate size after sonication, and demonstrate the potential to improve considerably the design and reproducibility of sonication experiments.

Graphical abstract: Designing the ultrasonic treatment of nanoparticle-dispersions via machine learning

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Article information

DOI
https://doi.org/10.1039/D2NR03240F
Article type
Paper
Submitted
12 Jun 2022
Accepted
13 Aug 2022
First published
15 Aug 2022
This article is Open Access
Creative Commons BY-NC license

Nanoscale, 2022,14, 12940-12950

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Designing the ultrasonic treatment of nanoparticle-dispersions via machine learning

C. Glaubitz, B. Rothen-Rutishauser, M. Lattuada, S. Balog and A. Petri-Fink, Nanoscale, 2022, 14, 12940 DOI: 10.1039/D2NR03240F

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