Yury Zelechonok scite author profile

Yury Zelechonok

5Publications

149Citation Statements Received

64Citation Statements Given

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An Automated Orthogonal Two-Dimensional Liquid Chromatograph

Venkatramani¹,

Zelechonok²

2003

Anal. Chem.

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A simple approach to two-dimensional liquid chromatography has been developed by coupling columns of different selectivity using a 12-port, dual-position valve and a standard HPLC system. The valve at the junction of the two columns enables continuous, periodic sampling (injection) of the primary column eluent onto the secondary column. The separation in the primary dimension is comparable to conventional HPLC, whereas the secondary column separation is fast, lasting several seconds. The high-speed separation in the secondary dimension enables the primary column eluent to be sampled with fidelity onto the secondary column throughout the chromatographic run. One might expect a coupled column liquid chromatography system operating in reverse-phase mode to be strongly correlated and, hence, inefficient. However, by applying a solvent gradient in the primary dimension and by progressively incrementing the solvent strength in the secondary dimension (tuning), the inefficiency or cross correlation between the two dimensions is minimized. In a tuned two-dimensional system, the influence of primary column retention (usually hydrophobicity) is minimal on secondary column retention. This enables subtle differences in component interaction with the two stationary phases to dominate the secondary column retention. The peaks are randomly dispersed over a retention plane rather than along a diagonal, resulting in an orthogonal separation. The peak capacity is multiplicative, and each component has a unique pair of retention times, enabling positive identification. In addition, the location of the component provides two independent measures of molecular properties. The 2D-LC system was evaluated by analyzing a test mixture made of some aromatic amines and non-amines on different secondary columns (ODS-AQ/ODS monolith, ODS/amino, ODS/cyano). The relative location of sample components in the two-dimensional plane varied significantly with change in secondary column. Among the secondary columns, the amino and cyano columns offered the most complementary separation, with the retention order of several components reversed in the secondary dimension. The theoretical peak capacity of the 2D-LC system was around 450 for a separation lasting 30 min. A 2D-LC system involving amino and cyano columns resulted in a high-speed separation of the test mixture, with most of the chemical components resolved within a few minutes.

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Enantioselective separation of racemic secondary amines on a chiral crown ether-based liquid chromatography stationary phase

Steffeck¹,

Zelechonok²,

Gahm³

2002

Journal of Chromatography A

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Evidence for a hydrogen atom transfer mechanism or a fast proton/electron transfer mechanism for monoamine oxidase

Silverman¹,

Zelechonok²

1992

J. Org. Chem.

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Two-dimensional liquid chromatography with mixed mode stationary phases

Venkatramani¹,

Zelechonok²

2005

Journal of Chromatography A

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Mechanism for the reaction of tributyltin radicals with aldehydes

Zelechonok¹,

Silverman²

1992

J. Org. Chem.

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Yury Zelechonok

An Automated Orthogonal Two-Dimensional Liquid Chromatograph

Enantioselective separation of racemic secondary amines on a chiral crown ether-based liquid chromatography stationary phase

Evidence for a hydrogen atom transfer mechanism or a fast proton/electron transfer mechanism for monoamine oxidase

Two-dimensional liquid chromatography with mixed mode stationary phases

Mechanism for the reaction of tributyltin radicals with aldehydes

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