Evaluation of ultra performance liquid chromatography. Part I. Possibilities and limitations.

@article{deVilliers2006EvaluationOU,
  title={Evaluation of ultra performance liquid chromatography. Part I. Possibilities and limitations.},
  author={Andr{\'e} de Villiers and François Lestremau and Roman Szucs and Sylvie G{\'e}l{\'e}bart and Frank David and P. A. T. Sandra},
  journal={Journal of chromatography. A},
  year={2006},
  volume={1127 1-2},
  pages={
          60-9
        }
}
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267 Citations
Highly Influential Citations
5
Background Citations
18
Methods Citations
6

267 Citations

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Facts and myths about columns packed with sub-3 microm and sub-2 microm particles.
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References

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Poppe plots for size-exclusion chromatography.
(Micellar) electrokinetic chromatography: an interesting solution for the liquid phase separation dilemma.
Some reflections on speed and efficiency of modern chromatographic methods
Practical aspects of fast reversed-phase high-performance liquid chromatography using 3 microm particle packed columns and monolithic columns in pharmaceutical development and production working under current good manufacturing practice.
Ultrahigh-pressure reversed-phase capillary liquid chromatography: isocratic and gradient elution using columns packed with 1.0-micron particles.
TLDR
An electrically driven constant-flow syringe pump capable of generating mobile-phase pressures as high as 9000 bar (130,000 psi) is described, used in conjunction with an exponential dilution method for the gradient separation of peptides from a tryptic digest on a 27-cm-long capillary packed with 1.0-micron particles.
Liquid chromatography system for fast, accurate analysis
In-depth characterization of slurry packed capillary columns with 1.0-microm nonporous particles using reversed-phase isocratic ultrahigh-pressure liquid chromatography.
TLDR
Fused-silica capillary columns packed with 1.0-microm nonporous C18 bonded particles are evaluated with isocratic ultrahigh-pressure liquid chromatography and retention factors for moderately retained compounds are observed to increase with column i.d., suggesting an increase in packing density.
Influence of thermal conditions on the efficiency of high-performance liquid chromatographic columns
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