ジャーナル

/

/

荧光检测方法，为微流体液滴平台

JoVE Journal
生物工学
Author Produced

This content is Free Access.

JoVE Journal 生物工学

Fluorescence detection methods for microfluidic droplet platforms

Please note that all translations are automatically generated. Click here for the English version.

荧光检测方法，为微流体液滴平台

DOI:

•

14:16 min

•

December 10, 2011

•

Xavier Casadevall i Solvas, Xize Niu, Katherine Leeper, Soongwon Cho, Soo-Ik Chang, Joshua B. Edel, Andrew J. deMello

¹化学科,Imperial College London , ²Department of Biochemistry, Protein Chip Research Center,Chungbuk National University, ³Department of Chemistry and Applied Biosciences,Institute for Chemical and Bioengineering, ETH Zurich

章

00:05標題
00:27Introduction
02:12Microchip Fabrication
04:07Microfluidic Setup
05:55Optical Setup
08:00Data Acquisition
09:00Cell Recognition
11:13Mapping of Mixing Events Using FLIM
13:04Conclusion

概要

自動翻訳

基于液滴微流控平台的高通量实验的有希望的候选人，因为它们能产生廉价的皮升，自我隔离的船只在千赫率。通过整合，快速，灵敏，高分辨率荧光光谱方法，可以有效地提取这些系统内产生的大量信息，利用和利用。

タグ

Fluorescence Detection Methods Microfluidic Droplet Platforms System Miniaturization Nano-to-femto-liter Volumes Functional Components Integration Large-scale Multiplexing Analytical Throughput Instrumental Footprints Reduction Droplet-based Microfluidic Systems High-throughput Experimentation Water-in-oil Emulsions Capillary Instabilities Microdroplets Generation Isolated Compartments Sample Cross-talk Elimination Dispersion Reduction Minimal Cross-contamination Accurate Timing Of Analytical Processes Contact-free Environment

Article

Embed

プレイリスト追加

Usage Statistics

関連ビデオ

微机械动态细胞培养平台

High Throughput Microfluidic Rapid and Low Cost Prototyping Packaging Methods

3d轨道跟踪的改进双光子显微镜之应用：细胞内的囊泡的跟踪

从快速荧光成像在分子扩散法对活细胞的膜在商业显微镜

合并一个液滴后荧光恢复来衡量磷脂单层的二维扩散

使用多色荧光检测液滴微流控光纤

全自动离心微流体装置从全血超灵敏蛋白检测

多级可变高度的光刻多层带瓣微流体装置

与复用电子检测的粒子的空间跟踪微流体平台

胎儿和成人心脏组织外植体作为三维体外研究平台的可比较去角质

Read Article