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High performance liquid chromatography column packings with deliberately broadened particle size distribution: Relation between column performance and packing structure

Tijdschriftbijdrage - Tijdschriftartikel

The effect of the addition of 25%, 50% and 75% (weight percent, wt%) of larger particles (resp. 3 and 5 μm) to a commercial batch of 1.9 μm particles has been investigated as an academic exercise to study the effects of particle size distribution on the kinetic performance of packed bed columns in a magnified way. Comparing the performance of the different mixtures in a kinetic plot, it could be irrefutably shown that the addition of larger particles to a commercial batch of small particles cannot be expected to lead to an improved kinetic performance. Whereas the addition of 25 wt% of larger particles still only has a minor negative effect, a significantly deteriorated performance is obtained when 50 or 75 wt% of larger particles are added. In this case, separation impedance number increases up to 200% were observed. Studying the packing structure through computational packing simulations, together with the experimental determination of the external porosity, helped in understanding the obtained results. This showed that small particles tend to settle in the flow-through pores surrounding the larger particles, leading to very high packing densities (external porosities as low as 32% were observed) and also negatively influencing the column permeability as well as the band broadening (because of the broadened flow-through pore size range).
Tijdschrift: Journal of chromatography
ISSN: 0021-9673
Issue: 38
Volume: 1218
Pagina's: 6654-6662
Jaar van publicatie:2011
Trefwoorden:Particle size distribution (PSD), Kinetic plot, Particle packing, Total Pore Blocking method, External porosity
  • ORCID: /0000-0001-5587-5136/work/69927251
  • ORCID: /0000-0001-8781-7184/work/69211820
  • Scopus Id: 80052092550