Juan Carlos Medina, M. Carmen Alonso, Damia Barcelo, Milton L. Lee
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引用次数: 7
Abstract
A new gradient system for CEC was designed and adapted to a home-built CEC system. Chromatographic separations are initiated with a predetermined mobile phase composition and, after a desired time period, a syringe pump delivers pure organic solvent at a preset flow rate into a 2 mL vial used as the inlet buffer reservoir. Mixing is achieved by the use of a microstir bar in the buffer reservoir, which in turn is driven by an air-actuated stir plate. In this way, a convex-shaped gradient is generated, and the mobile phase is introduced into the separation column by electro-osmotic flow. Use of this system significantly reduced analysis time while still retaining acceptable reproducibility. Nonaqueous CEC was used for isocratic and gradient separation (<3.5% RSD in retention times). Demonstrated applications include the analysis of triglycerides in different vegetable oil samples. This system is expected to be well suited for generating other types of gradients, such as pH and ionic strength gradients, in electroseparation techniques. © 2001 John Wiley & Sons, Inc. J Micro Sep 13: 351–360, 2001
用于毛细管电色谱的简单梯度系统
设计了一种新的CEC梯度系统,并将其应用于国产CEC系统。色谱分离以预定的流动相组成开始,在期望的时间段后,注射泵以预设的流速将纯有机溶剂输送到用作入口缓冲库的2ml小瓶中。混合是通过使用缓冲储层中的微搅拌棒来实现的,而缓冲储层又由空气驱动的搅拌板驱动。这样就产生了一个凸出的梯度,流动相通过电渗透流进入分离柱。使用该系统大大减少了分析时间,同时仍然保持可接受的再现性。非水CEC用于等温梯度分离(保留时间RSD <3.5%)。演示应用包括分析不同植物油样品中的甘油三酯。该系统有望很好地适用于在电分离技术中产生其他类型的梯度,如pH和离子强度梯度。©2001 John Wiley &[J]微型电子,2001年9月13日:351-360
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