Naijun Wu, Qinglin Tang, J. Andreas Lippert, Milton L. Lee
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引用次数: 26
Abstract
Neat water at temperatures above its normal boiling point was used as a mobile phase for packed capillary column chromatography. The “universal” flame ionization detector (FID) was used for detection. No restrictor or back pressure was imposed at the column outlet. The effects of temperature on column efficiency and retention were investigated using particle-bonded continuous bed columns packed and crosslinked with 3 μm polybutadiene-encapsulated zirconia particles. It was found that when the column inlet pressure was held constant and the temperature was increased to values that were higher than 100°C, the pressure drop decreased rapidly, allowing the use of long columns or small particles. Solute retention factors decreased with increasing temperature; however, column inlet pressure had little effect on retention factor. Mass transfer resistance also decreased with an increase in temperature. Mixtures of alcohols and phenols could be separated within several minutes after the interface between the column and the FID was optimized. © 2001 John Wiley & Sons, Inc. J Micro Sep 13: 41–47, 2001
采用纯水流动相和火焰电离检测的填充毛细管柱溶剂化气相色谱法
温度高于正常沸点的纯水被用作填充毛细管柱色谱的流动相。采用“通用”火焰电离检测器(FID)进行检测。在塔出口处没有施加限流器或背压。采用3 μm聚丁二烯包封氧化锆颗粒填充交联的方法,研究了温度对柱效和保留率的影响。研究发现,当塔入口压力保持不变,温度升高到高于100℃时,压降迅速下降,允许使用长柱或小颗粒。溶质保留系数随温度升高而降低;而柱入口压力对截留系数影响不大。传质阻力也随温度的升高而减小。优化柱与FID之间的界面,可在几分钟内分离出醇类和酚类混合物。©2001 John Wiley &儿子公司,J微型,2001年9月13日:41-47
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