A new approach to live reaction monitoring using active flow technology in ultra-high-speed HPLC with mass spectral detection

Danijela Kocic; R. Andrew Shalliker

doi:10.1002/jms.3711

A new approach to live reaction monitoring using active flow technology in ultra-high-speed HPLC with mass spectral detection

Danijela Kocic, R. Andrew Shalliker

School of Science

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

A new type of chromatography column referred to as a parallel segmented flow (PSF) column enables ultra-high-speed high-performance liquid chromatography-MS to be undertaken. This occurs because the separation efficiency obtained on PSF columns has been shown in prior studies to be superior to conventional columns, and the flow stream is split radially inside the outlet end fitting of the column, rather than in an axial post-column flow stream split. As a result, the flow through the column can be five times higher than the flow through the MS. In this work, the degradation of amino acids in dilute nitric acid was used to illustrate the process. Separations were obtained in less than 12 s, although the reinjection process was initiated 6 s after the previous injection. The degradation rate constant of tryptophan, in the presence of tyrosine and phenylalanine, was determined.

Original language	English
Pages (from-to)	1396-1399
Number of pages	4
Journal	Journal of Mass Spectrometry
Volume	50
Issue number	12
DOIs	https://doi.org/10.1002/jms.3711
Publication status	Published - 2015

Keywords

chromatographic analysis
high performance liquid chromatography
separation (technology)

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10.1002/jms.3711

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abstract = "A new type of chromatography column referred to as a parallel segmented flow (PSF) column enables ultra-high-speed high-performance liquid chromatography-MS to be undertaken. This occurs because the separation efficiency obtained on PSF columns has been shown in prior studies to be superior to conventional columns, and the flow stream is split radially inside the outlet end fitting of the column, rather than in an axial post-column flow stream split. As a result, the flow through the column can be five times higher than the flow through the MS. In this work, the degradation of amino acids in dilute nitric acid was used to illustrate the process. Separations were obtained in less than 12 s, although the reinjection process was initiated 6 s after the previous injection. The degradation rate constant of tryptophan, in the presence of tyrosine and phenylalanine, was determined.",

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AU - Kocic, Danijela

AU - Shalliker, R. Andrew

PY - 2015

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AB - A new type of chromatography column referred to as a parallel segmented flow (PSF) column enables ultra-high-speed high-performance liquid chromatography-MS to be undertaken. This occurs because the separation efficiency obtained on PSF columns has been shown in prior studies to be superior to conventional columns, and the flow stream is split radially inside the outlet end fitting of the column, rather than in an axial post-column flow stream split. As a result, the flow through the column can be five times higher than the flow through the MS. In this work, the degradation of amino acids in dilute nitric acid was used to illustrate the process. Separations were obtained in less than 12 s, although the reinjection process was initiated 6 s after the previous injection. The degradation rate constant of tryptophan, in the presence of tyrosine and phenylalanine, was determined.

KW - chromatographic analysis

KW - high performance liquid chromatography

KW - separation (technology)

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JO - Journal of Mass Spectrometry

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ER -

A new approach to live reaction monitoring using active flow technology in ultra-high-speed HPLC with mass spectral detection

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