Rationale behind the optimum efficiency of columns packed with new 1.9 mu m fully porous particles of narrow particle size distribution

Martina Catani, Omar Ismail, Alberto Cavazzini, Alessia Ciogli, Claudio Villani, Luisa Pasti, Caterina Bergantin, Deirdre Cabooter, Gert Desmet, Francesco Gasparrini, David Bell

Research output: Contribution to journalArticlepeer-review

53 Citations (Scopus)

Abstract

Columns packed with new commercially available 1.9 fully porous particles of narrow particle size distribution (nPSD) are characterized by extremely high efficiency. Under typical reversed phase conditions, these columns are able to generate very high number of theoretical plates (in the order of 300,000 plates/m and more). In this paper, we investigate the origin of the high performance of these nPSD columns by performing a series of measurements that include, in addition to the traditional determination of the van Deemter curve, peak parking, pore blocking and inverse size exclusion experiments. Two nPSD columns (both 100 x 3.0 mm) have been considered in this study: the first one, packed with particles of 80 angstrom pore size, is commercially available. The second one is a prototype column packed with 1.9 fully porous particles of 120 angstrom pore size.

The main conclusion of our study is that these nPSD columns are characterized by extremely low eddy dispersion, while longitudinal diffusion and mass transfer kinetics are substantially equivalent to those of other fully porous particles of similar chemistry. (C) 2016 Elsevier B.V. All rights reserved.
Original languageEnglish
Pages (from-to)78-85
Number of pages9
JournalJournal of Chromatography A
Volume1454
DOIs
Publication statusPublished - 8 Jul 2016

Keywords

  • Column efficiency
  • Sub-2 mu m fully porous particles of narrow particle size distribution (nPSD)
  • Mass transfer
  • Eddy dispersion
  • Pressure Liquid-Chromatography
  • Total Pore Blocking
  • B-Term Expressions
  • Longitudinal Diffusion
  • Temperature-Gradients
  • Titan-C-18 Particles
  • Shell Particles
  • Pillar Arrays
  • Performance
  • Media

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