浊点萃取在生物大分子分离及分析中的应用

浊点萃取是一种新兴的环保型液2液萃取方法。本文介绍了表面活性剂胶束溶液的形成过程和浊点现象, 总结了浊点萃取法的操作方法, 并且详细讨论了它在生物大分子分离纯化及生物分析中的应用。最后探讨了该技术的发展前景。     

浊点萃取技术的应用

浊点萃取是近年发展起来的一种新兴的萃取技术。重点阐述了浊点萃取在环境样品、生物样品和食品工业分析中的应用,总结了浊点萃取技术的优点,指出了存在的问题,探讨了该技术的发展前景。     

浊点萃取技术在金属离子分离和富集以及形态分析中应用的进展

介绍了新兴的环保型液液萃取方法——浊点萃取的原理及操作方法，讨论了影响浊点萃取效率的因素，重点回顾了近年来该技术在金属离子分离和富集以及形态分析中应用的进展，探讨了该技术的发展前景。     

浊点萃取在痕量金属元素分析中的应用

浊点萃取(CPE)法是一种新兴的环保型液_液萃取技术，可以作为痕量金属元素的预富集方法。此文总结了CPE法在痕量金属元素分析中应用原理、方法及试验条件优化，概括了CPE作为预富集法在不同分析检测仪器中的应用，探讨了该技术方法的应用前景。     

浊点萃取-紫外可见分光光度法测定痕量钴

浊点萃取(Cloud-Point Extraction,简称CPE)是近年来出现的一种新兴的液-液萃取技术,该法以表面活性剂胶束水溶液的溶解性和浊点现象为基础,通过改变实验参数如溶液pH值、离子强度、温度等引发相分离,将疏水性物质与亲水性物质分离,同时起到富集的作用.     

8-羟基喹啉-浊点萃取-流动分析光度法测定果蔬中铬价态

1 引言 浊点萃取法是一种新兴的液-液萃取技术,具有很高的富集倍数和提取率.流动分析光度法通常一次进样只需0.5～1.0 mL,可节省试样,减少二次污染.浊点萃取法与流动分析光度法结合可优势互补,更快速、简便.Cr(Ⅲ)是人体维持生命的必需元素,而Cr(Ⅵ)在生物体系内有很强的流动性和氧化性.因此,分析不同价态铬十分重要.铬价态的分析方法主要有共沉淀、萃取、离子交换、色谱等方法.基于Triton X-100的浊点现象,选择8-羟基喹啉为螯合萃取剂,在优化的实验条件下,使Cr(Ⅲ)-8-羟基喹啉 "原位"进入其富胶束相,Cr(Ⅵ)留在水相而彼此得以分离,提出了浊点萃取-流动分析光度法测定不同价态铬的新方法.     

浊点萃取技术及其在有机化合物分离分析中的应用

浊点萃取是基于表面活性剂水溶液中相分离现象的萃取浓缩技术,已成功实现了与HPLC、CE和FI等分析仪器的联用,用于各种金属离子、生物分子和不同极性有机化合物浓缩分离处理,是一种替代有机溶剂萃取的良好形式。本文简要介绍了浊点萃取技术的原理和流程,详细总结了在有机化合物分离分析中的应用以及与不同分析仪器联用时遇到的问题和处理方法。     

金属检测中新型前处理技术研究进展及应用

精准检测环境和食品中金属含量对环境保护和人体健康至关重要.样品的准备环节是造成样品损失和二次污染的关键步骤, 因此合适的前处理方法可以提高金属分析的选择性和灵敏度.从液相萃取和非液相萃取新技术两方面综述了浊点萃取、离子液体、超分子溶剂-分散液液微萃取、顶空固相微萃取技术、超临界流体萃取特点及在复杂样品前处理中的应用和研究进展, 并对其未来发展方向进行了展望.     

基于冷冻熔炼的液-液萃取样品富集技术研究

本文通过对区域熔炼原理及液-液萃取技术的探讨,发展了一种简单高效的基于冷冻熔炼的液-液萃取样品富集新技术.通过理论分析,探讨了冷冻熔炼、常温液-液萃取以及冷冻熔炼液-液萃取中溶质浓度的分布特征,通过富集效率的探讨证明冷冻熔炼液-液萃取技术是液-液萃取与区域熔炼技术的结合.通过葡萄汁样品的分析,对该技术进行了评价.理论计算求得冷冻熔炼液-液萃取中相应组分的富集效率为4.5,而试验测得富集效率为4.8,两者结果一致,说明冷冻熔炼液-液萃取是一种简单高效的样品富集技术.     

浊点萃取-火焰原子吸收光谱法测定某些中药中的铜含量

浊点萃取(Cloud Point Extraction,CPE)是近年来出现的一种新兴的环保型的液-液萃取技术,它不使用挥发性有机溶剂,对环境的影响较小[1].它以中性表面活性剂胶束水溶液的溶解性和浊点现象为基础,通过改变试验参数如溶液pH值、温度等引发相分离,将疏水性物质与亲水性物质分离.它具有经济、安全、高效、简便等优点,已广泛应用于生命科学和环境科学研究中[2-4],特别是在痕量金属元素的分离富集方面取得了很大的成功[5-7].     

Design of rapidly synergistic cloud point extraction of ultra-trace lead combined with flame atomic absorption spectrometry determination

In this work, traditional cloud point extraction (CPE) pattern was changed and improved by the proposed rapidly synergistic CPE. Using octanol as cloud point revulsant and synergic reagent, non-ionic surfactant Triton X-114 (TX-114) accomplished room temperature extraction rapidly without heating in water bath. The improved extraction was named as rapidly synergistic cloud point extraction (RS-CPE). Compared with traditional CPE, RS-CPE was accomplished in 1 min with considerably high extraction efficiency. The improved CPE pattern was coupled with flame atomic absorption spectrometry (FAAS) for the extraction and detection of trace lead in real and certified water samples with satisfactory analytical results. The proposed method greatly improved the sensitivity of FAAS for the determination of lead. Under the optimal conditions, the limit of detection (LOD) for lead was 4.3 μg/L, with enhancement factor (EF) of 39. Factors influencing RS-CPE efficiency, such as concentrations of surfactant TX-114 and octanol, concentration of chelating agent, pH, conditions of phase separation, environmental temperature, salt effect and instrumental conditions, were studied systematically.     

Preconcentration and fluorimetric determination of polycyclic aromatic hydrocarbons based on the acid-induced cloud-point extraction with sodium dodecylsulfate

The acid-induced cloud-point extraction (CPE) technique based on sodium dodecylsulfate (SDS) micelles has been used for preconcentration of ten representatives of polycyclic aromatic hydrocarbons (PAHs) for the following fluorescence determination. The effect of the acidity of solution, SDS and electrolyte concentrations, centrifugation time and rate on the two-phase separation process and extraction percentages of PAHs have systematically been examined. Extraction percentages have been obtained for all PAHs after CPE ranged from 67 to 93%. Pyrene was used as a fluorescent probe to monitor the micropolarity of the surfactant-rich phase compared with SDS micelles and this allows one to conclude that water content in micellar phase after CPE is reduced. The spectral, metrological and analytical characteristics of PAH fluorimetric determination after acid-based CPE with sodium dodecylsulfate are presented. Advantages provided by using CPE in combination with fluorimetric determination of PAHs are discussed. The determination of benz[a]pyrene in tap water is presented as an example.     

Separation and preconcentration of persistent organic pollutants by cloud point extraction

Persistent organic pollutants (POPs) are recognized as a class of poisonous compounds which pose risks of causing adverse effects to human health and the environment. Thus, it is very important to detect POPs in environmental and biological samples. The identification and determination of very low levels of POPs in complex matrices is extremely difficult. Recently a promising environmentally benign extraction and preconcentration methodology based on cloud point extraction (CPE) has emerged as an efficient sample pretreatment technique for the determination of trace/ultra-trace POPs in complex matrices. The purpose of this paper is to review the past and latest use of CPE for preconcentrating POPs and its coupling to different contemporary instrumental methods of analysis. First, the comparison of various extraction techniques for POPs is described. Next, the general concept, influence factors and other methods associated with CPE technique are outlined and described. Last, the hyphenations of CPE to various instrumental methods for their determination are summarized and discussed.     

阳离子表面活性剂Aliquat 336对水中双酚A的浊点萃取及作用机制

研究了阳离子表面活性剂Aliquat 336(三辛基甲基氯化铵)浊点萃取水中双酚A(BPA)后以高效液相色谱测定的方法.探讨了Aliquat 336与Na_2SO_4/NaCl用量、pH值、萃取时间等因素对萃取效果的影响,经条件实验选定各因素水平如下:0.8 g/L Aliquat 336,4.0 g/L Na_2SO_4,超声萃取15 min,pH和对萃取影响不大,故不予调节.结果表明: 在此选定条件下,本方法富集效率高(BPA在胶束相-水相分配系数达10~4),萃取效率稳定(相对标准偏差均小于10%),其对BPA在不同水质、不同加标浓度下的回收率均大于90%,去离子水中检出限为0.34 μg/L.本方法操作简单、方便、成本低,易于推广.同时以胶束粒径与Zeta电位分析等确证盐含量对阳离子表面活性剂胶束形成的决定性作用,并结合影响因子分析,推测Aliquat 336浊点萃取过程中BPA可能存在静电作用、阳离子-π键等疏水分配以外的作用机制.     

Cloud-point extraction of rhodamine 6G by using Triton X-100 as the non-ionic surfactant

Cloud-point extraction (CPE) using the non-ionic surfactant Triton X-100 was used successfully to remove a highly toxic dye, rhodamine 6G (R6G), from water and wastewater. The effects of different analytical parameters such as pH, concentration of Triton X-100 (TX-100) and salts, equilibrium temperature, and incubation time on the efficiency of the extraction of R6G were studied in detail, and optimum conditions for dye extraction were obtained. Thermodynamic parameters including changes in Gibbs free energy, enthalpy, and entropy were also calculated, and these parameters indicated that the CPE of R6G was feasible, spontaneous, and endothermic in the temperature range of 75-95 degrees C. The equilibrium solubilization capacity of TX-100 was found to be 1.10 mmol/mol by using Langmuir isotherm models. No significant interference effects were observed in the presence of phenol and its derivatives, some acidic and basic dyes and most of the anions and cations. It was concluded that the CPE process described in this paper can be an alternative technique for removal of dyes and other pollutants from waters and wastewaters.     

Cloud point extraction of 99Mo with Triton X-114

This paper reports the cloud point extraction (CPE) extraction behaviour of ⁹⁹Mo in non-ionic Triton X-114 (TX-114), sodiumdodecyl sulphate (SDS) + TX-114 and sodium diethyldithiocarbamate (DDTC) + TX-114. The high extraction of ⁹⁹Mo observed in all the CPE systems in pH 5 or less. The extent of extraction was almost unchanged with addition of SDS and DDTC in TX-114. Extraction behaviour was also studied in presence of common salts. It was observed the presence of salts dramatically decreased the amount of molybdenum extraction in the surfactant-rich phase.