场流分馏中输运现象的热力学:有组织结构的形成

IF 1.3 4区 化学 Q4 BIOCHEMICAL RESEARCH METHODS
Josef Janča
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引用次数: 0

摘要

经典的场流分选理论模型,假设极化机制中受外场影响的物质浓度呈指数分布,只是一个近似,忽略了有组织结构的可能形成。最初使用黎曼积分来计算无量纲指数浓度分布,可以研究场力较弱的模型系统的热力学方面和相关输运现象,并通过两种不同的机制获得形成集中区域的物种的平衡位置的精确和预测结果。注入到场流分选分离单元的样品被稀释了,但施加的电场力传输了大分子或颗粒物种,并产生了更高浓度的区域。因此,每当溶解或分散的物质之间的排斥性相互作用限制了它们的自由布朗运动时,就会出现适合于每种特定分离机制的、在有效电场力方向上构成空间定向浓度梯度的有组织结构。在薄场流分馏通道中很难直接检测到这种结构的存在,但在二氧化硅水悬浮液中对较大体积的带负电荷的纳米级颗粒进行小角度x射线散射,无疑证明了这种结构的存在。不同密度但大小几乎相同的粒子在升力作用下的实验平衡位置是相同的,但它们从堆积壁上开始起飞到平衡位置的轨迹不同。这一发现激发了将这种效应用于快速聚焦微tfff的想法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermodynamics of Transport Phenomena in Field-Flow Fractionation: Organized Structures Formation

The classical theoretical model of the field-flow fractionation, assuming the exponential concentration distribution of the species affected by the external fields in polarization mechanism, is just an approximation neglecting the possible formation of the organized structures. Original use of Riemann’s integral to calculate the dimensionless exponential concentration distribution enables to study the thermodynamic aspects and the related transport phenomena for model systems where the field forces are weak and to obtain precise and predictive results on the equilibrium positions of the species forming the focused zones by two different mechanisms. The samples injected into the separation units of the field-flow fractionation are rather diluted but the applied field forces transport the macromolecular or particulate species and produce the zones of much higher concentration. Consequently, the organized structures, that constitute the spacially oriented concentration gradients in the direction of the effective field forces, appropriate to each particular separation mechanism, may appear whenever the repulsive interactions among the dissolved or dispersed species restrict their free Brownian motion. It is difficult to detect the existence of such structures directly in thin field-flow fractionation channels but it was unquestionably proven by the small angle X-ray scattering of larger volume of the negatively charged nanometer sized particles in aqueous suspension of silica. The experimental equilibrium positions of the particles of different densities but almost the same size, focused by the action of lift forces, were identical, but their trajectories from the starting takeoff from the accumulation wall to the equilibrium positions were different. This finding inspired the idea to exploit this effect for rapid focusing micro-TFFF.

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来源期刊
Chromatographia
Chromatographia 化学-分析化学
CiteScore
3.40
自引率
5.90%
发文量
103
审稿时长
2.2 months
期刊介绍: Separation sciences, in all their various forms such as chromatography, field-flow fractionation, and electrophoresis, provide some of the most powerful techniques in analytical chemistry and are applied within a number of important application areas, including archaeology, biotechnology, clinical, environmental, food, medical, petroleum, pharmaceutical, polymer and biopolymer research. Beyond serving analytical purposes, separation techniques are also used for preparative and process-scale applications. The scope and power of separation sciences is significantly extended by combination with spectroscopic detection methods (e.g., laser-based approaches, nuclear-magnetic resonance, Raman, chemiluminescence) and particularly, mass spectrometry, to create hyphenated techniques. In addition to exciting new developments in chromatography, such as ultra high-pressure systems, multidimensional separations, and high-temperature approaches, there have also been great advances in hybrid methods combining chromatography and electro-based separations, especially on the micro- and nanoscale. Integrated biological procedures (e.g., enzymatic, immunological, receptor-based assays) can also be part of the overall analytical process.
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