共查询到20条相似文献,搜索用时 177 毫秒
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采用三种端痉基聚硅氧烷试剂对石英毛细管进行钝化处理,考察了钝化处理的石英毛细管与不同极性固定相的润湿性。在脱活试剂中加入二丁基二月桂酸锡催化剂,降低了钝化反应温度,从而制备出了超性能的石英毛细管色谱柱,在有机磷农药残留量的分析中取得了满意结果。 相似文献
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采用全新的两步原位合成法,先通过将带有双活性反应基团γ—三甲氧基硅丙基异丁烯酸酯的CH3-O-Si-基团与石英毛细管内壁表面的Si-0H反应,在石英毛细管内壁键合上带有活性基团的中间有机层,再原位合成多孔聚合物,制成高效一体化Q型聚合物颗粒多孔层开管柱(PLOT)Pora-Q毛细管色谱柱;该色谱柱具有良好的惰性、较强的分离能力;与一般的商品化PLOT-Q色谱柱相比,热稳定性和机械强度有明显的改善和提高,最高使用温度提高了50℃达到300℃,扩展了该种色谱柱的应用范围。 相似文献
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溶胶-凝胶法制备高热稳定性的毛细管气相色谱柱 总被引:1,自引:0,他引:1
毛细管气相色谱柱的传统制备工艺都较为复杂,周期较长,同时固定相和石英毛细管内壁间通常并无化学键生成,在较高温度下使用时固定相的流失严重,导致这类色谱柱的最高允许使用温度不很高.溶胶-凝胶法是一种快速有效的制备色谱柱的新技术,近年来经常应用于高效液相色谱、毛细管电色谱和固定相微萃取等分析化学的许多领域.在气相色谱方面,溶胶-凝胶端羟基聚硅氧烷柱、溶胶-凝胶聚乙二醇柱和溶胶-凝胶开链冠醚柱已相继制备出来,在用溶胶-凝胶 相似文献
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近年国内外毛细管气相色谱柱的进展和趋向 总被引:4,自引:1,他引:3
报道了近两年毛细管气相色谱柱的发展和趋向. 气相色谱柱制柱工艺是一个成熟的技术, 所以在制柱工艺方面的研究不够活跃. 近年新研究的固定相集中在常温离子液体和各种环糊精的衍生物. 近几年GC毛细管色谱柱的研究和改进集中在色谱柱厂家进行, 并立即成为商品柱. 本文对近两年一些重要期刊上发表的气相色谱论文进行了总结, 发现气相色谱分析所用的色谱柱大都使用毛细管柱, 并趋向于使用商品GC毛细管柱, 所使用的商品色谱柱中, 使用最多的是以含5%苯基的聚甲基硅氧烷做固定相的色谱柱, 其次是以100%甲基的聚硅氧烷做固定相的色谱柱. 极性毛细管色谱柱主要使用PEG、 OV-17和OV-1701固定相. 相似文献
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电色谱整体柱是通过原位聚合或固化于柱管内部的方法来制备的一种新型色谱柱.与常规的填充毛细管柱不同的是,其制备方法具有简易性和易于实现色谱填料表面化学性质多样性的特点,已迅速成为优异的毛细管电色谱固定相形式.本文综述了毛细管电色谱整体柱研究的最新进展. 相似文献
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硫酸钡微晶改性毛细管柱的制备及其分离性能的研究(Ⅰ) 总被引:9,自引:0,他引:9
本文提出利用硫酸钡微晶对玻璃毛细管内表面进行改性,成功地将中、强极性固定液涂溃在这种改性表面上,制备出高效毛细管色谱柱。文中较详细地给出了硫酸钡微晶的制备方法以及微晶层的沉积方法,并对这种毛细管色谱柱的性能进行了考察。 相似文献
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采用全新的两步原位合成法,制备高效一体化U型多孔层聚合物颗粒PLOT Pora-U毛细管色谱柱。先将带有双活性反应基团的γ-三甲氧基硅丙基异丁烯酸酯中的CH3—O—Si—基团与石英毛细管内壁表面的Si—OH反应,在石英毛细管内壁键合上带有活性基团的中间有机层,再原位合成多孔聚合物。该色谱柱具有良好的惰性和较强的分离能力。与一般的商品化PLOT-U色谱柱相比,热稳定性和机械强度有明显的改善和提高,色谱柱最高使用温度提高了20 ℃,达到210 ℃,对强极性物质、强活性化合物、永久性气体以及低碳化合物有较好的分 相似文献
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整体柱离子色谱的研究进展 总被引:1,自引:0,他引:1
该文介绍了离子色谱的分类,整体柱的分类、制备及特点,并以此为依据归纳总结了常规整体柱在离子色谱中的应用和毛细管整体柱在毛细管离子色谱中的应用,其中包括硅胶基质整体柱和聚合物基质整体柱,评述并展望了整体柱离子色谱的发展前景. 相似文献
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A General Strategy for the Separation of Immiscible Organic Liquids by Manipulating the Surface Tensions of Nanofibrous Membranes
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Dr. Li Wang Prof. Yong Zhao Dr. Ye Tian Prof. Lei Jiang 《Angewandte Chemie (International ed. in English)》2015,54(49):14732-14737
Oil/water separation membranes with different wettability towards water are attractive for their economic efficiency and convenience. The key factor for the separation process is the roughness‐enhanced wettability of membranes based on the intrinsic wetting threshold (IWT) of water, that is, the limitation of the wettability caused by hydrophobicity and hydrophilicity. However, the separation of organic liquids (OLs) remains a challenge. Herein, we manipulate the surface tensions of nanofibrous membranes to lie between the IWTs of the two OLs to be separated so that the nanofibrous membranes can be endowed with superlyophobicity and superlyophilicity for the two liquids, and thus lead to successful separation. Our investigations provide a general strategy to separate any immiscible liquids efficiently, and may lead to the development of membranes with a large capacity, high flux, and high selectivity for organic reactions or liquid extraction in chemical engineering. 相似文献
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The deactivation of fused silica capillary columns with a laboratory-made poly-diphenylvinylmethylhydrosiloxane copolymer has been investigated. The deactivation obtained at different temperatures and reaction times is characterized with a dual column capillary GC system [1]. In parallel, the effect of the silylation temperatures and reaction times on the nature, the structure, and the chemical properties of the deactivation layer has also been studied by solid-state 29Si NMR spoctroscopy. A fumed silica, Cab-O-Sil M5, was used as a model substrate for these spectroscopic studies. The deactivated fused silica capillaries show an excellent thermal stability (up to 400°C), a high resistance to solvolysis, and a minimal interaction to various critical test components. A good wettability of the fused silica capillary columns deactivated with this reagent was confirmed by successful subsequent coating with polysiloxanes with different phenyl contents. 相似文献
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Bruzzoniti MC Mentasti E Pohl CA Riviello JM Sarzanini C 《Journal of chromatography. A》2001,925(1-2):99-108
The chromatographic behavior of carboxylic acids has been investigated, on three different latex-based anion-exchange columns, in order to define the effect of the ion-exchange site structure on selectivity. The analytical columns produced are characterized by alkyl amines containing zero, one or two hydroxyl groups on the anion-exchange functional site. Divalent carboxylic acids, namely fumaric, maleic, trans-beta-hydromuconic, trans,trans-muconic, oxalic, malonic, succinic, glutaric, adipic, malic, tartaric and mucic acids, have been chosen as test solutes. The performance of the three stationary phases has been studied employing NaOH eluents and has been discussed with respect to the different hydrophilicity of the ion-exchange sites and analytes. Considering on previous results obtained using organic solvents (methanol and acetonitrile) with carbonate eluents on a highly hydrophilic column, the performance of the three exchangers has also been studied using acetonitrile, methanol and n-propanol. The chromatographic behavior was similar for the three columns studied, but the different organic solvents gave variations in selectivity. In order to characterize these differences, particle size measurements of the latices were performed both in pure water and in the presence of each organic solvent studied. 相似文献
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Different models have been described in the literature to evaluate the total porosity of CEC columns: gravimetric, flow as well as conductivity-based methods. In this study, these models have been compared for two kinds of CEC columns: two mixed-mode silica particle stationary phases and different monolithic columns (acrylate or polystyrene divinylbenzene-based). The total porosities measured from the conductivity-based methods were lower than the total column porosities obtained by gravimetric or flow methods for all the investigated columns while the wide distribution of observed values shows that conductivity-based methods discriminate columns more efficiently with very different properties. We propose a conductivity-based method taking into account the actual length proposed by Horvath, to evaluate what we call an "actual electrokinetic" porosity (AEP). This parameter, based on electrokinetic theory only, affords the most consistent evaluation of porosity under experimental CEC conditions for the packed- and acrylate-based monolithic columns. To illustrate the potential of AEP and actual EOF for the estimation of the performances of a CEC system (stationary and mobile phases) we studied the influence of the mobile-phase composition on these parameters for CEC separations with an ammonium embedded packed stationary phase. The AEP and the actual electroosmotic mobility should allow a better understanding of the perfusive EOF and stationary-phase wettability. For neutral compounds (substituted phenols), AEP evaluation allowed us to predict the mobile-phase conditions able to enhance the efficiency while both AEP and actual EOF had to be considered in the case of peptide analysis. 相似文献
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Liu S Wang WM Mannsfeld SC Locklin J Erk P Gomez M Richter F Bao Z 《Langmuir : the ACS journal of surfaces and colloids》2007,23(14):7428-7432
Two efficient approaches to assembling organic semiconducting single crystals are described. The methods rely on solvent wetting and dewetting on substrates with patterned wettability to selectively direct the deposition or removal of organic crystals. Substrates were functionalized with different self-assembled monolayers (SAMs) to achieve the desired wettabilities. The assembly of different organic crystals over centimeter-squared areas on Au, SiO2, and flexible plastic substrates was demonstrated. By designing line features on the substrate, the alignment of crystals, such as CuPc needles, was also achieved. As a demonstration of the potential application of this assembly approach, arrays of single-crystal organic field-effect transistors were fabricated by patterning organic single crystals directly onto and between transistor source and drain electrodes. 相似文献
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E. Cappelletto S. Maggini F. Girardi G. Bochicchio B. Tessadri R. Di Maggio 《Cellulose (London, England)》2013,20(6):3131-3141
This paper describes coatings on wood surfaces made by dipping the wood into solutions of different alkoxysilanes. The silanes used as precursors contain different organic groups [R’Si(OR’’)]. These materials tend to deposit as inorganic–organic polymeric films, where the organic groups (aliphatic hydrocarbons, fluorinated hydrocarbons or aromatic substituents) show hydrophobic properties, which reduce the wettability of the surface. The effects of these treatments on the wood surface were extensively studied using various analytical techniques: scanning electron microscopy with energy dispersive X-ray spectrometry, Fourier transform infrared spectroscopy, nuclear magnetic resonance spectroscopy, water contact angle measurements, and flame resistance tests. The resulting data show that the chemical treatment changes the wood’s surface energy, reducing its wettability and reaction to fire. The main innovative finding of this research is that the coatings obtained from a cheaper precursor have a similar performance to that of the more expensive precursors normally used. 相似文献