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超临界流体技术制备纳米材料的研究与展望 总被引:1,自引:0,他引:1
纳米科技是人们普遍关注的重要领域,而纳米材料充当其中的基础性角色。本文介绍了在新兴绿色环保介质——超临界流体中纳米材料的合成及其制备,涉及范围包括从准零纳米微粒到三维纳米材料,从无机纳米材料到有机聚合物纳米材料。其中不仅介绍了超临界流体中纳米材料的制备方法,同时也包括制备过程中超临界流体特殊性质,如溶胀、塑化和地表面张力所起的重要作用,并对超临界流体技术在纳米材料制备中的应用前景进行展望。 相似文献
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Supercritical fluid extraction (SFE) provides for the first time a viable option to conventional and widely used Soxhlet extraction. The ability to change the solvating power of a single supercritical fluid by changing its density is an exceedingly attractive feature. An environmentally safe alternative such as supercritical carbon dioxide to organochlorine solvents which are widely used today in many government and industrial analytical laboratories for sample preparation is desirable. SFE may also constitute a viable alternative to other popular sample preparation techniques such as liquid-liquid extraction, solid phase extraction and purge/trap. Much research, however, must be done in order to understand, optimize and apply this technology. For example, (a) automation of extraction, (b) matrix effects, (c) new fluids/modifiers/additives, (d) trapping efficiency, (e) recovery of extracted analytes, and (f) extraction kinetics are some areas which need a greater understanding. This review is concerned with many of these topics as they relate to trace organic analysis wherein SFE is the primary sample preparation technique. 相似文献
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The use of supercritical fluids as mobile phases in chromatography was suggested nearly fifty years ago. In spite of some major potential advantages, this mode of chromatography, generally known as SFC, is only now beginning to be considered by the mainstream community but it still does not yet enjoy a popularity comparable to those of gas or liquid chromatography. This seems to be largely due to a combination of (1) the serious instrumental difficulties that took many years to solve; (2) the complexity of the behavior of supercritical fluids in chromatographic systems when their temperature, pressure, or composition changes; (3) the long-lasting absence of any substantial incentive to use more complex systems, when the simpler and more robust approaches provided by HPLC are available. This situation, however, has begun to significantly change during recent years. The incentive of employing green, sustainable technologies in industrial processes as well as in analyses is increasing. Because mobile phases generally used in SFC tend to be less environmentally harmful and less expensive than those used in HPLC, SFC presents strong economical and regulatory advantages over the latter technique. Added to that, steady advancements in LC techniques in the last three decades has solved many instrumental difficulties related to SFC, which is now taking full advantages of many of these advances. One factor, however, has remained mostly unresolved. A clearer understanding of the physico-chemical behavior of supercritical fluids in preparative chromatographic columns under nonlinear conditions is still needed. This seems to be the main obstacle to the establishment of SFC as a sustainable separation tool. One aim of this review is to highlight these issues in more detail through a survey of the state-of-the-art techniques available for the design and operation of SFC. Another aim is to outline a possible series of investigations, which are necessary to develop a better physical understanding of SFC. 相似文献
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Holmes JD Lyons DM Ziegler KJ 《Chemistry (Weinheim an der Bergstrasse, Germany)》2003,9(10):2145-2151
In the near future physical and economic constraints are expected to limit the continued miniaturisation of electronic and optical devices using current "top-down" lithography-based methods. Consequently, nonlithographic methods for synthesising and organising materials on the nanometre scale are required. In response to these technological needs a number of research groups are developing new supercritical fluids methodologies to synthesise and self-assemble "building blocks" of nanomaterials, from the "bottom-up", into structurally complex device architectures. This concept paper highlights some of the recent advances in the synthesis of metal and semiconductor nanoparticles and nanowires by using supercritical fluids. In addition, we describe an efficient supercritical fluid approach for constructing ordered arrays of metal and semiconductor nanowires within mesoporous silica templates. 相似文献
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Martyn Poliakoff Steven M. Howdle Sergei G. Kazarian 《Angewandte Chemie (International ed. in English)》1995,34(12):1275-1295
Supercritical fluids are beginning to be used widely in chemistry. Applications range from extraction and chromatography in analytical chemistry to solvents for reaction chemistry and preparation of new materials. Spectroscopic monitoring is important in much of supercritical chemistry, and vibrational spectroscopy is particularly useful in this context because the vibrational spectrum of a given molecule is usually quite sensitive to the environment of that molecule. Thus, vibrational spectra are excellent probes of conditions within the fluid. In this review, we describe a variety of techniques and cells for IR and Raman spectroscopy in supercritical fluids and illustrate the breadth of applications in supercritical fluids. The examples include: the use of supercritical Xe as a spectroscopically transparent solvent for chemistry and for supercritical fluid chromatography with FTIR detection of analytes; Raman spectroscopy as a monitor for gases dissolved in supercritical CO2; the effect of solvent density on hydrogen bonding in supercritical fluids and the formation of reverse micelles; IR as a monitor for the supercritical impregnation/extraction of polymers and the reactions of organometallic compounds impreganated into polymers; reactions of organometallic compounds in supercritical fluids; and finally, the use of miniature flow reactors for laboratory-scale preparative chemistry. Overall, our aim is to provide a starting point from which individual readers can judge whether such measurements might usefully be applied to their own particular problems. 相似文献
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Antonio Tabernero Eva M. Martín del Valle Miguel A. Galán 《The Journal of chemical thermodynamics》2011,43(5):711-718
Experimental solubility data of solid–supercritical fluids have significantly increased in the last few years, and semiempirical models are emerging as one of the best choices to fit this type of data. This work establishes a methodology to calculate sublimation pressures using this type of equations. It requires the use of Bartle’s equation to model equilibria data solid–supercritical fluids with the aim of determining the vaporization enthalpy of the compound. Using this method, low deviations were obtained by calculating sublimation pressures and sublimation enthalpies. The values of the sublimation pressures were subsequently used to successfully model different multiphasic equilibria, as solid–supercritical fluids and solid–solvent–supercritical fluids with the Peng–Robinson equation of state (without considering the sublimation pressure as an adjustable parameter). On the other hand, the sublimation pressures were also used to calculate solid sublimation properties and acetaminophen solvation properties in some solvents. Also, solubility data solid–supercritical fluids from 62 pharmaceuticals were fitted with different semiempirical equations (Chrastil, Kumar-Johnston and Bartle models) in order to present the values of solvation enthalpies in sc-CO2 and vaporization enthalpies for these compounds. All of these results highlight that semiempirical models can be used for any other purpose as well as modeling (solid + supercritical fluids) equilibria. 相似文献
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超(近)临界水中的有机合成反应 总被引:7,自引:0,他引:7
作为一种环境友好的化学工艺过程,以超(近)临界水作有机合成反应介质越来越受到人们的关注。人们考察了在超(近)临界水中的许多有机反应,并获得了预期的结果。综述了近年来超(近)临界水中的有机合成反应的研究进展。 相似文献
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Kurnik, R.T. and Reid, R.C., 1982. Solubility of solid mixtures in supercritical fluids. Fluid Phase Equilibria, 8: 93-105Supercritical fluids are receiving widespread attention as possible extraction agents for relatively non-volatile solids and liquids. Previous studies of the solubility of solids in supercritical fluids have been limited to pure solids. These pure-component data are interesting and indicate novel properties of supercritical fluids in this respect. The more general problem, however, lies in determining the solubility of multicomponent solids in supercritical fluids. Experimental data have now been obtained on the solubilities of binary, solid hydrocarbon mixtures in both supercritical carbon dioxide and supercritical ethylene. Most of the behavior exhibited by pure solids in supercritical fluids still exists for multicomponent solid solute systems (e.g., retrograde solidification, solubility extrema), but new phenomena were also found. The most interesting finding is that the solubility of a solid component when in a multicomponent solute system can be as much as 300% higher than the component solubility in a pure solid system at the same operating conditions. The multicomponent-solid-fluid data usually correlate well with thermodynamic theory. 相似文献
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《Fluid Phase Equilibria》1998,153(1):167-212
The methods for obtaining reliable data on diffusion coefficients at high pressure have received great attention over the last 15 years. This interest has been due to the importance that supercritical fluids have assumed in some industrial areas, mainly in emerging separative operations based on mass transfer mechanisms. This review includes all the available data of diffusion coefficients in supercritical fluids at infinite dilution. Revised literature includes references until 1998. Frequent types of graphical correlation were analyzed. 相似文献
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超临界流体化学热力学 总被引:9,自引:0,他引:9
本文简要介绍了超临界流体的基本概念和性质,评述了化学热力学在超临界萃取、超临界态化学反应、超临界流体制备材料等方面的作用和研究进展,讨论了二氧化碳-离子液体两相体系的热力学行为。 相似文献
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Mohammad Rezaee Yadollah YaminiMohammad Faraji 《Journal of chromatography. A》2010,1217(16):2342-2357
Dispersive liquid–liquid microextraction (DLLME) has become a very popular environmentally benign sample-preparation technique, because it is fast, inexpensive, easy to operate with a high enrichment factor and consumes low volume of organic solvent. DLLME is a modified solvent extraction method in which acceptor-to-donor phase ratio is greatly reduced compared with other methods. In this review, in order to encourage further development of DLLME, its combination with different analytical techniques such as gas chromatography (GC), high-performance liquid chromatography (HPLC), inductively coupled plasma-optical emission spectrometry (ICP-OES) and electrothermal atomic absorption spectrometry (ET AAS) will be discussed. Also, its applications in conjunction with different extraction techniques such as solid-phase extraction (SPE), solidification of floating organic drop (SFO) and supercritical fluid extraction (SFE) are summarized. This review focuses on the extra steps in sample preparation for application of DLLME in different matrixes such as food, biological fluids and solid samples. Further, the recent developments in DLLME are presented. DLLME does have some limitations, which will also be discussed in detail. Finally, an outlook on the future of the technique will be given. 相似文献
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Most of the models proposed in literature for binary diffusion coefficients of solids in supercritical fluids are restricted to infinite dilution; this can be explained by the fact that most of experimental data are performed in the dilute range. However some industrial processes, such as supercritical fluid separation, operate at finite concentration for complex mixtures. In this case, the concentration dependence of diffusion coefficients must be considered, especially near the upper critical endpoint (UCEP) where a strong decrease of diffusion coefficients was experimentally observed. In order to represent this slowing down, a modified version of the Darken equation was proposed in literature for naphthalene in supercritical carbon dioxide. In this paper, the conditions of application of such a modelling are investigated. In particular, we focus on the order of magnitude of the solubility of the solid and on the vicinity of the critical endpoint. Various equations proposed in literature for the modelling of the infinite dilution diffusion coefficients of the solutes are also compared. Ten binary mixtures of solids with supercritical carbon dioxide were considered for this purpose. 相似文献
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超临界流体色谱的研究进展 总被引:9,自引:0,他引:9
超临界流体色谱作为气相色谱和液相色谱的有力补充可用于热不稳定和低挥发性物质的分析分离和制备,也可用于超临界流体中分子间相互作用的研究。本文从色谱的流动相、固定相、检测系统及应用几方面综述了超临界流体色谱近年来的研究进展。 相似文献
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Fluorinated polymers form an interesting class of materials with a wealth of unique properties including self-assembly, remarkably low surface energies, low absorbance to 157 nm UV light, and solubility in supercritical carbon dioxide. As a result many fluorinated polymers are of use in advanced technology applications. We review some of our work on the synthesis and characterization of block copolymers with fluorinated side chains, with special emphasis on surfaces formed using these polymers. The use of fluorinated polymers as photoresists for 157 nm lithography, with the possibility for processing in environmentally friendly supercritical carbon dioxide is also discussed. 相似文献