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Progress in Multidimensional Particle Characterization

Uwe Frank, Maximillian J. Uttinger, Simon E. Wawra, Christian Lübbert, Wolfgang Peukert

2021KONA Powder and Particle Journal21 citationsDOIOpen Access PDF

Abstract

The properties of particle ensembles are defined by a complex multidimensional parameter space, namely particle size, shape, surface, structure, composition and their distributions. Macroscopic product properties are a direct result of these disperse particle properties. Therefore, the comprehensive multidimensional characterization of particle ensembles is a key task in any product design. However, the determination of complex property distributions is major challenge. We provide a broad overview of the current tools for multidimensional particle characterization. First, the mathematical handling of multidimensional (nD) property distribution is outlined as a necessary framework for the correct handling of nD particle size distributions (PSDs). Then, well-established techniques as well as recent developments with the potential to extract nD property distributions are reviewed. Ex situ imaging techniques like electron tomography or Raman spectroscopy with AFM co-localization, for instance, provide a resolution on the level of single particles but are limited in terms of sample statistics. A particular focus lies therefore on methods in the gas and the liquid phase, which provide multidimensional particle properties either directly or by a combination of one-dimensional techniques.

Topics & Concepts

Characterization (materials science)Particle (ecology)Property (philosophy)Statistical physicsMaterials scienceBiological systemComputer scienceNanotechnologyPhysicsGeologyEpistemologyOceanographyPhilosophyBiologyElectrostatics and Colloid InteractionsElectron and X-Ray Spectroscopy TechniquesMinerals Flotation and Separation Techniques
Progress in Multidimensional Particle Characterization | Litcius