Optothermal Molecule Trapping by Opposing Fluid Flow with Thermophoretic Drift

Stefan Duhr; Dieter Braun

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Optothermal Molecule Trapping by Opposing Fluid Flow with Thermophoretic Drift

机译：通过热泳漂移对抗流体流动的光热分子陷阱

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Thermophoresis moves molecules along temperature gradients, typically from hot to cold. We superpose fluid flow with thermophoretic molecule flow under well-defined microfluidic conditions, imaged by fluorescence microscopy. DNA is trapped and accumulated 16-fold in regions where both flows oppose each other. Strong 800-fold accumulation is expected, however, with slow trapping kinetics. The experiment is equally described by a three-dimensional and one-dimensional analytical model. As an application, we show how a radially converging temperature field confines short DNA into a 10 μm small spot.

机译：热泳使分子沿着温度梯度移动，通常从热到冷。在荧光显微镜下，我们将流体流与热泳分子流在定义明确的微流体条件下叠加。 DNA被截留并积聚在两个流动彼此相对的区域中，为16倍。但是，预期的800倍的强劲积累会带来缓慢的捕集动力学。通过三维和一维分析模型来平等地描述实验。作为应用，我们展示了径向收敛的温度场如何将短DNA限制在10μm的小斑点内。

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《Physical review letters》 |2006年第3期|p.038103.1-038103.4|共4页
作者
Stefan Duhr; Dieter Braun;
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作者单位

Biophysics, Ludwig Maximilians Universitaet Muenchen, Amalienstrasse 54, 80799 Muenchen, Germany;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
ecology and evolution; thermodynamics of solutions; colloids;

机译：生态与进化;溶液的热力学;胶体;

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Optothermal Molecule Trapping by Opposing Fluid Flow with Thermophoretic Drift

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