2004
DOI: 10.2116/analsci.20.335
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Polymer-Coated Fibrous Stationary Phases in Packed-Capillary Gas Chromatography

Abstract: Gas chromatography (GC) is regarded as an essential separation method for the analysis of volatile compounds, and a wide variety of polymeric liquid-phases have been developed as the stationary phase. 1,2 Various deactivation and polymer-coating processes have been also proposed for the preparation of GC columns with good separation performance and stability. [3][4][5][6] In contrast to the successful applications and subsequent commercialization of these polymer-coated columns, such as wall-coated, support-co… Show more

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Cited by 31 publications
(27 citation statements)
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“…The results clearly demonstrated the contribution of the polymeric coating to the surface of the fine fibrous support material on the retentivity to these analytes. [23][24][25] In those studies, even if the retentivities to homologous analytes were different, a general trend in the selectivity between these analytes could be similar, suggesting the existence of an optimum combination of the type of polymeric coating and the fibrous material. 25,39 Based on a successful polymeric coating on the surface of Zylon fiber, confirmed as the increased retentivity to two typical non-polar analytes in Table 1, the HR-17 coating was chosen as the main coating material in following experiments.…”
Section: Retention Behavior Of Polymer-coated Fiber-packed Columnsmentioning
confidence: 92%
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“…The results clearly demonstrated the contribution of the polymeric coating to the surface of the fine fibrous support material on the retentivity to these analytes. [23][24][25] In those studies, even if the retentivities to homologous analytes were different, a general trend in the selectivity between these analytes could be similar, suggesting the existence of an optimum combination of the type of polymeric coating and the fibrous material. 25,39 Based on a successful polymeric coating on the surface of Zylon fiber, confirmed as the increased retentivity to two typical non-polar analytes in Table 1, the HR-17 coating was chosen as the main coating material in following experiments.…”
Section: Retention Behavior Of Polymer-coated Fiber-packed Columnsmentioning
confidence: 92%
“…[23][24][25][26] First, a fused-silica capillary of 0.32 mm i.d., 1.0 m length packed with 332 of Zylon filaments was connected to a pressure-proof vessel containing 10 mL of acetone, and washed with a solvent pumped by N2 gas at a pressure of 500 kPa. After the same volumes of the following solvents, water, acetone and chloroform, were pumped in a similar manner, the capillary was allowed to dry by using N2 gas flow at room temperature for about 2 h. Second, the capillary was subjected to heating in a GC oven with the flow of N2 gas.…”
Section: Preparation Of Polymer-coated Fiber-packed Columnsmentioning
confidence: 99%
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“…Introducing polymer-coated fine fibrous materials as a stationary phase in GC, a significant miniaturization of the column was reported, [4][5][6][7] similar to the development of microscale sample preparation devices, where the filaments were packed into a short polymeric tubing, such as polyetheretherketone or polytetrafluoroethylene to prepare capillary-based extraction cartridges. [8][9][10] Packed with a bundle of filaments having a polymeric coating material thereon, a parallel alignment of these filaments was formed in a short capillary, and the resulting polymer-coated fiber-packed columns showed a satisfactory separation performance with a fast temperature-programming rate in GC.…”
Section: Introductionmentioning
confidence: 99%