In Situ Determination of Droplet and Nanoparticle Size Distributions in Spray Flame Synthesis by Wide-Angle Light Scattering (WALS)

Autor:	Bettina Münsterjohann, Franz J. T. Huber, Simon Aßmann, Stefan Will
Jazyk:	angličtina
Rok vydání:	2021
Předmět:	Technology multivariate data analysis Materials science droplet size distribution Monte Carlo method Analytical chemistry TiO2-nanoparticles Sintering Nanoparticle Light scattering Article spherical particles Physics::Fluid Dynamics elastic light scattering chemistry.chemical_compound wide-angle light scattering fractal aggregates General Materials Science particle size distribution Titanium isopropoxide Physics::Chemical Physics Microscopy QC120-168.85 Scattering QH201-278.5 Engineering (General). Civil engineering (General) flame spray pyrolysis TK1-9971 spray flame synthesis Descriptive and experimental mechanics chemistry Transmission electron microscopy Particle-size distribution Electrical engineering. Electronics. Nuclear engineering ddc:620 TA1-2040
Zdroj:	Materials Materials, Vol 14, Iss 6698, p 6698 (2021) Volume 14 Issue 21
ISSN:	1996-1944
Popis:	The investigation of droplet and nanoparticle formation in spray flame synthesis requires sophisticated measurement techniques, as often both are present simultaneously. Here, wide-angle light scattering (WALS) was applied to determine droplet and nanoparticle size distributions in spray flames from a standardized liquid-fed burner setup. Solvents of pure ethanol and a mixture of ethanol and titanium isopropoxide, incepting nanoparticle synthesis, were investigated. A novel method for the evaluation of scattering data from droplets between 2 µm and 50 µm was successfully implemented. Applying this, we could reveal the development of a bimodal droplet size distribution for the solvent/precursor system, probably induced by droplet micro-explosions. To determine nanoparticle size distributions, an appropriate filter and the averaging of single-shot data were applied to ensure scattering from a significant amount of nanoparticles homogeneously distributed in the measurement volume. From the multivariate analysis of the scattering data, the presence of spherical particles and fractal aggregates was derived, which was confirmed by analysis of transmission electron microscopy images. Monte Carlo simulations allowed determining the distribution parameters for both morphological fractions in three heights above the burner. The results showed relatively wide size distributions, especially for the spherical fraction, and indicated an ongoing sintering, from fractal to spherical particles.
Databáze:	OpenAIRE
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