Nanomaterials (Jun 2022)

Light Scattering and Turbidimetry Techniques for the Characterization of Nanoparticles and Nanostructured Networks

  • Pietro Anzini,
  • Daniele Redoglio,
  • Mattia Rocco,
  • Norberto Masciocchi,
  • Fabio Ferri

DOI
https://doi.org/10.3390/nano12132214
Journal volume & issue
Vol. 12, no. 13
p. 2214

Abstract

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Light scattering and turbidimetry techniques are classical tools for characterizing the dynamics and structure of single nanoparticles or nanostructured networks. They work by analyzing, as a function of time (Dynamic Light Scattering, DLS) or angles (Static Light Scattering, SLS), the light scattered by a sample, or measuring, as a function of the wavelength, the intensity scattered over the entire solid angle when the sample is illuminated with white light (Multi Wavelength Turbidimetry, MWT). Light scattering methods probe different length scales, in the ranges of ~5–500 nm (DLS), or ~0.1–5 μm (Wide Angle SLS), or ~1–100 μm (Low Angle SLS), and some of them can be operated in a time-resolved mode, with the possibility of characterizing not only stationary, but also aggregating, polymerizing, or self-assembling samples. Thus, the combined use of these techniques represents a powerful approach for studying systems characterized by very different length scales. In this work, we will review some typical applications of these methods, ranging from the field of colloidal fractal aggregation to the polymerization of biologic networks made of randomly entangled nanosized fibers. We will also discuss the opportunity of combining together different scattering techniques, emphasizing the advantages of a global analysis with respect to single-methods data processing.

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