Development and Application of a Novel Multiloop Splitter-Based Non-cryogenic Artificial Trapping Modulation System in Comprehensive Two-Dimensional Gas Chromatography

Tungkijanansin, Nuttanee; Nolvachai, Yada; Varanusupakul, Puttaruksa; Hinchiranan, Napida; Kulsing, Chadin; Marriott, Philip J.

doi:10.1021/acs.analchem.2c04710

Anal. Chem.

2023

DOI: 10.1021/acs.analchem.2c04710

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Development and Application of a Novel Multiloop Splitter-Based Non-cryogenic Artificial Trapping Modulation System in Comprehensive Two-Dimensional Gas Chromatography

Nuttanee Tungkijanansin

Yada Nolvachai

Puttaruksa Varanusupakul

et al.

Abstract: A multiloop splitter-based non-cryogenic artificial trapping (M-SNAT) modulation technique was established, which applied the first (1D) nonpolar and the second (2D) polar columns, deactivated fused silica (DFS) columns, a microfluidic Deans switch (DS), and splitters located between the 1D column outlet and the DS. The splitters were connected into multiple loops with a progressively doubled perimeter of the next loop. This enabled a duplex splitting mechanism within each loop consisting of splitting of analy… Show more

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Cited by 4 publications

References 34 publications

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Generalized flow calculation of the gas flow in a network of capillaries used in gas chromatography

Leppert,

Brehmer,

Boeker

et al. 2024

J of Separation Science

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A general method for the calculation of the flow and pressure of a gas in a network of cylindrical capillaries is presented. This method is used specifically for gas chromatographic systems in this work. With this approach, it is possible to easily calculate flow and pressures in complex gas chromatographic systems, like flow‐modulated or thermal‐modulated multidimensional gas chromatographic systems, or systems with multiple outlets at different pressures. A mathematic abstraction using graph theory is used to represent the system of capillaries. With this graph, the flow balance equations at the connections of the capillaries can easily be set up. Using a computer algebra system, the system of flow balance equations can be solved for the pressures at the connection points. For simple systems, this approach is presented, and calculated flows, pressures, and hold‐up times are compared with measured values. In addition, two complex systems (4‐Way‐Splitter, Deans Switch system) of capillaries are presented with calculations only. For these systems, certain conditions were formulated, that is, a certain difference in hold‐up times and a defined split ratio between different paths of these systems. Using a numeric non‐linear solver, configurations of these systems were found, that fulfill these conditions.

show abstract

Generalized flow calculation of the gas flow in a network of capillaries used in gas chromatography

Leppert,

Brehmer,

Boeker

et al. 2024

J of Separation Science

View full text Add to dashboard Cite

show abstract

Gas chromatography-flame ionization detector for sweat based COVID-19 screening

Tungkijanansin,

Phusrisom,

Chatdarong

et al. 2023

Analytica Chimica Acta

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Identification of coronavirus disease marker compounds in sweat with comprehensive two dimensional gas chromatography using multiloop splitter-based non-cryogenic artificial trapping modulation system

Tungkijanansin,

Giebelhaus,

Schmidt

et al. 2024

Journal of Chromatography Open

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Development and Application of a Novel Multiloop Splitter-Based Non-cryogenic Artificial Trapping Modulation System in Comprehensive Two-Dimensional Gas Chromatography

Cited by 4 publications

References 34 publications

Generalized flow calculation of the gas flow in a network of capillaries used in gas chromatography

Generalized flow calculation of the gas flow in a network of capillaries used in gas chromatography

Gas chromatography-flame ionization detector for sweat based COVID-19 screening

Identification of coronavirus disease marker compounds in sweat with comprehensive two dimensional gas chromatography using multiloop splitter-based non-cryogenic artificial trapping modulation system

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