基于咖啡环效应的纳米色谱分析。

Nanochromatography driven by the coffee ring effect.

出版信息

Anal Chem. 2011 Mar 15;83(6):1871-3. doi: 10.1021/ac102963x. Epub 2011 Feb 2.

Abstract

The coffee ring phenomenon has long been known for its ability to concentrate particles at the rim of a dried liquid droplet, yet little is known about its particle separation capability. Here, we elucidate the physics of particle separation during coffee ring formation, which is based on a particle-size selection mechanism near the contact line of an evaporating droplet. On the basis of this mechanism, we demonstrate nanochromatography of three relevant biological entities (proteins, micro-organisms, and mammalian cells) in a liquid droplet, with a separation resolution on the order of ∼100 nm and a dynamic range from ∼10 nm to a few tens of micrometers. These findings have direct implications for developing low-cost technologies for disease diagnostics in resource-poor environments.

摘要

咖啡环现象早已为人所知，其能够将颗粒在干燥液滴的边缘浓缩，然而人们对其颗粒分离能力却知之甚少。在这里，我们阐明了在咖啡环形成过程中的颗粒分离的物理原理，其基于在蒸发液滴的接触线附近的颗粒尺寸选择机制。基于该机制，我们在液滴中演示了三种相关生物实体（蛋白质、微生物和哺乳动物细胞）的纳微色谱分析，分离分辨率约为 100nm，动态范围约为 10nm 至几十微米。这些发现对于开发在资源匮乏环境中进行疾病诊断的低成本技术具有直接意义。

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基于咖啡环效应的纳米色谱分析。

Nanochromatography driven by the coffee ring effect.

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