A method for determining the mutual diffusion coefficient of molecular solutes based on surface plasmon resonance sensing

F.C.C.L Loureiro; A.G.S. Barreto Neto; C.S. Moreira; A.M.N. Lima; H. Neff

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A method for determining the mutual diffusion coefficient of molecular solutes based on surface plasmon resonance sensing

机译：基于表面等离子体共振感应的分子溶质互扩散系数的确定方法

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摘要

An experimental method, combining surface plasmon resonance sensing and microfluidics, to determine the mutual diffusion coefficient of molecular solutes, as ethanol and bovine serum albumin, is presented. Representative refractive index variations of analyte samples over time, and associated dynamic solute concentration profiles, respectively, have been employed to access molecular transport parameters. From both, Fick's diffusion length and Taylor's pulse dispersion methods, solute and solvent mutual diffusion coefficients for diluted ethanol and concentrated protein aqueous solutions have been obtained. Additionally, the dynamic behavior and geometry effects of molecular transport have been exploited using finite element simulations for the 3-dimensional case and confirmed experimentally. The numerical simulation also addresses the influence of temperature effects.

机译：提出了一种结合表面等离振子共振传感和微流控技术确定乙醇和牛血清白蛋白分子溶质相互扩散系数的实验方法。分析物样品随时间的代表性折射率变化以及相关的动态溶质浓度曲线已分别用于获取分子传输参数。从Fick的扩散长度和Taylor的脉冲分散方法中，都获得了稀乙醇和浓缩蛋白水溶液的溶质和溶剂相互扩散系数。此外，分子运输的动力学行为和几何效应已经通过三维情况的有限元模拟得到了利用，并得到了实验证实。数值模拟还解决了温度影响的影响。

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《Sensors and Actuators》 |2011年第2期|p.129-136|共8页
作者
F.C.C.L Loureiro; A.G.S. Barreto Neto; C.S. Moreira; A.M.N. Lima; H. Neff;
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作者单位

Department of Electrical Engineering. Center for Electrical Engineering and Informatics. Universidade Federal de Campina Grande.Rua Aprigio Veloso 882. 58429-900 Campina Grande. PB. Brazil;

Department of Electrical Engineering. Center for Electrical Engineering and Informatics. Universidade Federal de Campina Grande.Rua Aprigio Veloso 882. 58429-900 Campina Grande. PB. Brazil,IF-PB, Department of Electromechanics, Brazil;

Department of Electrical Engineering. Center for Electrical Engineering and Informatics. Universidade Federal de Campina Grande.Rua Aprigio Veloso 882. 58429-900 Campina Grande. PB. Brazil, IF-AL, Department of Electronics, Brazil;

Department of Electrical Engineering. Center for Electrical Engineering and Informatics. Universidade Federal de Campina Grande.Rua Aprigio Veloso 882. 58429-900 Campina Grande. PB. Brazil;

Department of Electrical Engineering. Center for Electrical Engineering and Informatics. Universidade Federal de Campina Grande.Rua Aprigio Veloso 882. 58429-900 Campina Grande. PB. Brazil,Northeast Center for Strategic Research (CETENE), Systems and Integrated Circuits Laboratory (LINCS), Recife, PE, Brazil;

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正文语种 eng
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microfluidic; diffusivity; surface plasmon resonance sensing; finite element simulation; molecular transport;

机译：微流体扩散率表面等离子体激元共振有限元模拟分子输运;

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A method for determining the mutual diffusion coefficient of molecular solutes based on surface plasmon resonance sensing

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