Low-Power Concentration and Separation Using Temperature Gradient Focusing via Joule Heating

Sun Min Kim; Greg J. Sommer; Mark A. Burns; Ernest F. Hasselbrink

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Low-Power Concentration and Separation Using Temperature Gradient Focusing via Joule Heating

机译：通过焦耳加热使用温度梯度聚焦进行低功率集中和分离

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We present an experimental study of temperature gradient focusing (TGF) exploiting an inherent Joule heating phenomenon. A simple variable-width PDMS device delivers rapid and repeatable focusing of model analytes using significantly lower power than conventional TGF techniques. High electric potential applied to the device induces a temperature gradient within the microchannel due to the channel's variable width, and the temperature-dependent mobility of the analytes causes focusing at a specific location. The PDMS device also shows simultaneous separation and concentration capability of a mixture of two sample analytes in less than 10 min. An experiment combining Joule heating with external heating/cooling further supports the hypothesis that temperature is indeed the dominant factor in achieving focusing with this technique.

机译：我们提出利用固有的焦耳热现象进行温度梯度聚焦（TGF）的实验研究。与传统的TGF技术相比，一种简单的可变宽度PDMS设备以显着更低的功率实现了对模型分析物的快速且可重复的聚焦。由于通道的可变宽度，施加到设备的高电势会引起微通道内的温度梯度，并且分析物的温度依赖性迁移率会导致聚焦在特定位置。 PDMS设备还显示了在不到10分钟的时间内同时分离和浓缩两种样品分析物的混合物的能力。结合焦耳加热和外部加热/冷却的实验进一步支持了以下假设：温度确实是使用此技术实现聚焦的主要因素。

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《Analytical chemistry》 |2006年第23期|共8页
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Sun Min Kim; Greg J. Sommer; Mark A. Burns; Ernest F. Hasselbrink;
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1. Low-Power Concentration and Separation Using Temperature Gradient Focusing via Joule Heating [J] . Sun Min Kim, Greg J. Sommer, Mark A. Burns, Analytical chemistry . 2006,第23期

机译：通过焦耳加热使用温度梯度聚焦进行低功率集中和分离
2. Rapid concentration of deoxyribonucleic acid via Joule heating induced temperature gradient focusing in poly-dimethylsiloxane microfluidic channel [J] . Ge Zhengwei, Wang Wei, Yang Chun Analytica chimica acta . 2015,第Null期

机译：通过焦耳热诱导的温度梯度聚焦在聚二甲基硅氧烷微流体通道中快速浓缩脱氧核糖核酸
3. Towards high concentration enhancement of microfluidic temperature gradient focusing of sample solutes using combined AC and DC field induced Joule heating [J] . Zhengwei Ge, Wei Wang, Chun Yang Lab on a chip . 2011,第7期

机译：交流和直流电场感应焦耳加热可实现高浓度增强样品溶质的微流体温度梯度聚焦
4. JOULE HEATING INDUCED TEMPERATURE GRADIENT FOCUSING FOR MICROFLUIDIC CONCENTRATION OF SAMPLES [C] . Zhengwei Ge, Chun Yang ASME international heat transfer conference;IHTC14 . 2011

机译：样品微流体浓度的焦耳加热诱导温度梯度聚焦
5. Electrokinetic gradient-based focusing mechanisms for rapid, on-chip concentration and separation of proteins. [D] . Sommer, Gregory Jon. 2008

机译：基于电动梯度的聚焦机制，可快速在芯片上浓缩和分离蛋白质。
6. Electrokinetically driven continuous-flow enrichment of colloidal particles by Joule heating induced temperature gradient focusing in a convergent-divergent microfluidic structure [O] . Cunlu Zhao, Zhengwei Ge, Yongxin Song, -1

机译：焦耳加热诱导的温度梯度聚焦在会聚-发散微流体结构中的电动驱动的胶体颗粒连续流动富集
7. Low-Power Concentration and Separation Using Temperature Gradient Focusing via Joule Heating [O] . -1

机译：使用焦耳加热的温度梯度聚焦低功耗集中和分离
8. Thomson Scattering for Determining Electron Concentrations and Temperatures in an Inductively Coupled Plasma. 1. Assessment of the Technique for a Lo -Flow, Low-Power Plasma [R] . Marshall, K. A., Hieftie, G. M. 1988

机译：汤姆逊散射测定电感耦合等离子体中的电子浓度和温度。 1.低功率等离子体技术的评估

Low-Power Concentration and Separation Using Temperature Gradient Focusing via Joule Heating

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