基于纸张的微流控芯片，具有高分辨率，在玻璃纤维膜上切割，用于生物分析。

Paper-based microfluidics with high resolution, cut on a glass fiber membrane for bioassays.

机构信息

Department of Chemistry and Institutes of Biomedical Sciences, Fudan University, Shanghai 200433, PR China.

出版信息

Lab Chip. 2014 Mar 7;14(5):911-5. doi: 10.1039/c3lc51246k.

PMID:24401949

Abstract

In this report, we describe a simple, low-cost, straight forward and highly reproducible fabrication method of microfluidic systems. This system was cut on a glass fiber membrane by a common cutter without using any other sophisticated equipment or organic solvents. This format represents a novel type of paper-based microfluidics with high resolution of the microchannel down to ~137 μm, comparable to those made by conventional photolithography. We successfully applied this method to microfluidics to create a star micro-array format of multiplexed urine tests in this study.

摘要

在本报告中，我们描述了一种简单、低成本、直接且高度可重复的微流控系统制造方法。该系统通过普通刀具切割玻璃纤维膜，无需使用任何其他复杂设备或有机溶剂。这种形式代表了一种新型的基于纸张的微流控技术，其微通道的分辨率高达~137μm，可与传统光刻技术相媲美。我们成功地将这种方法应用于微流控技术，在本研究中创建了一种星型微阵列格式的多种尿液检测。

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基于纸张的微流控芯片，具有高分辨率，在玻璃纤维膜上切割，用于生物分析。

Paper-based microfluidics with high resolution, cut on a glass fiber membrane for bioassays.

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