Evaluation of packed capillary liquid chromatography columns and comparison with conventional-size columns

Please add a reference to Chromcard Information (1) HRC &CC 1 (1978) 119 F. Rinderknecht, "A program for calculation of tm on the calculator HP-9820A by iterative refinement of a regression", private communication, 1975. ## What is it? Definition The working range of a GC column gives quantitativ

## Abstract Capillary columns of 0.3‐0.5 mm i.d. packed with 3‐ to 30‐μm silica‐based stationary phases for liquid chromatography were used for gas chromatographic separation of hydrocarbons. Column efficiencies were evaluated for various commercially available packing material. The best column eff

## Abstract Fused silica capillary columns of 0.250‐mm i.d., packed with 5‐μm particles of nonpolar (octadecyl, octyl, and butyl) and polar (silica, diol, cyano, and amino) materials, have been prepared using a dry‐packing technique. The performance of the columns has been evaluated using the reduc

Reversed-phase packed capillary column liquid chromatography LC was investigated at column temperatures of 24ЊC, 40ЊC, 60ЊC, and 80ЊC. For a Ž . mixed mobile phase containing acetonitrile and water 72:28, vrv , the viscosity of the mobile phase decreased 2.2 times and the diffusion rate of the solut

## Abstract The need for a high resolution chromatographic technique for analyzing compounds that are heavy, relatively polar, have low water solubility, and are not adequately separated by regular HPLC methods, has led to the development of a high temperature liquid chromatography system. The incr