Particle Sizing by Photon Correlation Spectroscopy. Part IV: Resolution of bimodals and comparison with other particle sizing methods |
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Authors: | Robert Finsy,Lue Deriemaeker,Nicolas De Jaeger,Rik Sneyers,Jan Vanderdeelen,Paul Van der Meeren,Hugo Demeyere,Jeanine Stone-Masui,Anne Haestier,Julius Clauwaert,Walter De Wispelaere,Pascal Gillioen,Sabine Steyfkens,Erik Gelad |
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Affiliation: | Robert Finsy,Lue Deriemaeker,Nicolas De Jaeger,Rik Sneyers,Jan Vanderdeelen,Paul Van der Meeren,Hugo Demeyere,Jeanine Stone-Masui,Anne Haestier,Julius Clauwaert,Walter De Wispelaere,Pascal Gillioen,Sabine Steyfkens,Erik Geladé |
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Abstract: | The practical performances of single and multi-angle photon correlation spectroscopy (PCS) for resolving bimodal distributions of industrial poly (methyl methacrylate) samples was investigated in a comparative study by several users affiliated to academic and industrial groups and by two suppliers of commercial equipment. The results for the harmonic intensity averaged diameters obtained by cumulants analysis reported by the different laboratories are in agreement, in addition to the results for the normalized second cumulants. The uncertainty on the latter quantities is large, however. For the bimodal samples with two populations with average diameters in a ratio of about 2.5 : 1, not all users were able to resolve the distribution in its components by single-angle PCS. Some slight improvement was obtained by multi-angle PCS. Other indirect techniques (polarization intensity differential scattering, static light scattering data and disc photosedimentometer) appeared to be superior for resolving the bimodal distributions. |
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