Solvent effects in on-column injection of large sample volumes

## Abstract A direct injection method for large volume samples which avoids severe tailing of the solvent peak has been developed using a packed column injector (up to 100 μl) leading into an ordinary capillary column (0.3 mm i.d.). Modifications are made to the cooler zones of the inlet port and o

## Abstract The solvent venting injection technique has been tested for 1‐μL injections of lipids in open tubular column SFC. No sample loss during solvent venting was experienced with a 7‐m precolumn at elevated temperatures. The solvent venting technique has also been combined with gas purging to

24 1k . . 8 t (minl Figure 1 Separation of racemic CHPGA and racemic CHPAA. Stationary phase: p -cyclodextrin covalently bonded to silicagel, 5 pm (1 75 X 4.6 mm i.d.). Mobile phase: 35 pCt v/v acetonitrile and 65 pCt v/v potassiumphosphate buffer (c = 0.1 M; pH = 4.2). Flow rate: 1 mllmin. Detecti

## Abstract An automated large volume on‐column injection technique for capillary gas chromatography (GC) with solvent divert and heated retention gap technology has been utilized to determine polynuclear aromatic hydrocarbons (PAHs) in samples of industrial plant process water. Injecting large sam

In this work a fast gas chromatography set-up with on-column injection was optimized and evaluated with a model mixture of C 8 -C 28 nalkanes. Usual injection volumes when using narrow-bore (e. g., 0.1 mm i.d.) analytical columns are ca. 0.1 lL. The presented configuration allows introduction of 10