Liquid Chromatography: Chiral

V. R. Meyer; Diana IBRAHIM; Ashraf GHANEM

doi:10.1016/B978-0-12-409547-2.00286-9

Liquid Chromatography: Chiral

V. R. Meyer, Diana IBRAHIM, Ashraf GHANEM

Science

Research output: A Conference proceeding or a Chapter in Book › Entry for encyclopedia/dictionary

Abstract

Enantioselective separation of enantiomers in liquid chromatography is a tremendous success story. Undoubtedly, there will continuously be significant developments in chiral stationary phases. There will be additional improvements in the immobilization, stability, and efficiency of existing classes of chiral selectors. We may even see the introduction of completely new and exciting classes of chiral selectors, although it is unlikely that this will happen at the same rapid pace of the previous decade. Despite the success of liquid chromatography chiral stationary phases, there remain several types of enantiomers that are not yet easily resolved by this approach.

Original language	English
Title of host publication	Encyclopedia of Analytical Science
Editors	Paul Worsfold, Alan Townshend, Colin Poole, Manuel Miro
Publisher	Elsevier
Pages	12-23
Number of pages	11
Volume	6
Edition	3
ISBN (Electronic)	9780081019849
ISBN (Print)	9780081019832
DOIs	https://doi.org/10.1016/B978-0-12-409547-2.00286-9
Publication status	Published - 15 Feb 2019

Publication series

Name	Encyclopedia of Analytical Science

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10.1016/B978-0-12-409547-2.00286-9

Cite this

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abstract = "Enantioselective separation of enantiomers in liquid chromatography is a tremendous success story. Undoubtedly, there will continuously be significant developments in chiral stationary phases. There will be additional improvements in the immobilization, stability, and efficiency of existing classes of chiral selectors. We may even see the introduction of completely new and exciting classes of chiral selectors, although it is unlikely that this will happen at the same rapid pace of the previous decade. Despite the success of liquid chromatography chiral stationary phases, there remain several types of enantiomers that are not yet easily resolved by this approach.",

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T1 - Liquid Chromatography

T2 - Chiral

AU - Meyer, V. R.

AU - IBRAHIM, Diana

AU - GHANEM, Ashraf

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AB - Enantioselective separation of enantiomers in liquid chromatography is a tremendous success story. Undoubtedly, there will continuously be significant developments in chiral stationary phases. There will be additional improvements in the immobilization, stability, and efficiency of existing classes of chiral selectors. We may even see the introduction of completely new and exciting classes of chiral selectors, although it is unlikely that this will happen at the same rapid pace of the previous decade. Despite the success of liquid chromatography chiral stationary phases, there remain several types of enantiomers that are not yet easily resolved by this approach.

KW - Chiral additives

KW - Chiral porous materials

KW - Chiral stationary phases

KW - Chiroptical detection

KW - Core shell

KW - Derivatization

KW - Diastereosiomers

KW - Fully porous particles

KW - Liquid chromatography

KW - Sub-2 micron

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SN - 9780081019832

VL - 6

T3 - Encyclopedia of Analytical Science

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BT - Encyclopedia of Analytical Science

A2 - Worsfold, Paul

A2 - Townshend, Alan

A2 - Poole, Colin

A2 - Miro, Manuel

PB - Elsevier

ER -

Liquid Chromatography: Chiral

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