共查询到20条相似文献,搜索用时 0 毫秒
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Daniel W. Armstrong 《Separation & Purification Reviews》2013,42(2):213-304
This paper presents a brief overview of improved Liquid membrane (LM) separation techniques. including modified bulk, supported and emulsion liquid membranes as well as hollow fibre contained liquid membranes, electrostatic pseudo liquid membranes (ESPLIM) reverse micelle and recently developed hybrid (HLM) and other LM configurations. The discussion also includes design of ion specific carriers, analytical importance, aspects of stability and modelling of LMs and their applications in the separation/removal of metal captions from a range of diverse matrices. In general, an attempt has been made to review the literature published from 1990 to 1997 in order to focus on the present status of different liquid membrane configurations. The LM studies dealing with separation and removal of organic compounds and gases are not included in this article owing to limitations of space. 相似文献
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《液相色谱法及相关技术杂志》2012,35(14):2737-2755
Abstract Comparisons are made for separations attained in normalphase HPLC and TLC involving N-carbobenzyloxy-glycyl-L-proline and (+/?)?10-camphorsulfonic acid as chiral mobile phase additives/chiral counter ions (CMA). Possible reasons for differences in stereoselectivity of β-cyclodextrin CMA and chiral stationary phases (CSP) are discussed. In addition, differences in solubility and proposed separation mechanisms for native cyclodextrins (CD) versus derivatized CD are discussed. Inherent differences in high performance liquid chromatographic (HPLC) and thin-layer chromatographic (TLC) methods are outlined. The pros and cons of using HPLC and TLC are considered. 相似文献
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Molecular shape can provide a basis for chromatographic separations that is distinct from other interaction mechanisms often considered in liquid chromatography. Molecular shape recognition, or shape selectivity, is most evident for the separation of isomeric compounds that have constrained molecular structures, such as polycyclic aromatic hydrocarbons. A central feature of shape-selective columns is conformational order within the stationary phase; this aspect of stationary phase morphology is revealed through spectroscopic studies and molecular dynamics simulations, and is correlated with chromatographic performance.
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Dennis P. Curran 《Angewandte Chemie (International ed. in English)》1998,37(9):1174-1196
A dirty word in synthesis: separation! The normally unavoidable separation at the end of each reaction finds no friends among synthetic chemists and is often regarded as a technical procedure. However, the need to quickly and cheaply produce pure products is driving the development of new separation and purification techniques. Astonishingly, the modern concepts and techniques for coupling synthesis and separation are rooted in workup procedures that are as old as the art of synthesis itself. 相似文献
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微流控液滴技术及其应用的研究进展 总被引:1,自引:0,他引:1
微液滴具有体积小、比表面积大,速度快、通量高,大小均匀、体系封闭,内部稳定等特性,在药物控释、病毒检测、颗粒材料合成、催化剂等领域中均有重要应用.微流控技术的发展为微液滴生成中实现尺寸规格、结构形貌和功能特性等的可控设计和精确操控提供了全新平台.本文概述了微流控液滴技术的基本原理、液滴生成方式及其基本操控,比较分析了微液滴的传统制备法与微流控合成法的异同,介绍了近年来微流控液滴技术在功能材料合成、生物医学和食品加工等领域中的研究新进展,探讨并展望了微流控液滴技术的潜在价值和未来发展方向. 相似文献
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Long Ni Jinyi Tian Tao Song Yongson Jong Jianing Zhao 《Separation & Purification Reviews》2019,48(1):30-51
Hydrocyclones have been extensively applied for solid–liquid or liquid–liquid separations in various industries. However, the exact mechanisms underlying the enhanced separation technologies based on the optimization of geometric parameters of hydrocyclones remain unclear, and a number of research teams have performed numerous studies to enlarge the application scope of hydrocyclones by optimizing geometric parameters. This review provides a comprehensive state-of-the-art review of hydrocyclone enhanced-separation technologies. The enhanced-separation technologies are categorized into ten groups: cylindrical section, inlet, vortex finder, underflow pipe, conical section, hydrocyclone inclination angle, hydrocyclone insertion, conical-section/apex water injection, reflux device, and multi-hydrocyclone arrangement. These enhanced-separation technologies were analyzed and summarized according to the key separation-performance parameters of hydrocyclones, such as separation efficiency, cut size, split ratio, energy consumption, and capacity. It is expected that both the reviewed contents and the proposed challenges and future methodologies and technologies may provide research fellows working in this field with an improved understanding of enhanced separation technologies of hydrocyclones. 相似文献