Team:TU Eindhoven/Project/Microfluidics

From 2014.igem.org

(Difference between revisions)
Line 50: Line 50:
   </p>
   </p>
-
      </div>
+
      </div></div>
      <div class="clear"></div>
      <div class="clear"></div>
      </div>
      </div>

Revision as of 20:05, 31 August 2014

TU Eindhoven iGEM Team

Microfluidics

Introduction

A substantial part of the TU Eindhoven iGEM 2014 Project is Microfluidics. Microfluidics is a technique that comprises various fields of engineering. This technique operates on a microscale and thus uses small volumes. For the encapsulation of bacterial cells – as is the case for our iGEM Project – droplet-based microfluidics is used. As extensively elaborated in the Project Overview Page, the engineered bacteria must be brought in the proximity of PEG polymers. The ultimate goal is to verify the intended function of a cell encapsulation device. Theoretically three processes have to be accomplished: 1. Combining a PEG solution and a bacterial culture with our engineered E. coli bacteria. These are the essential substances to perform the click reaction. After combining, this is called the Water Phase. 2. The Water Phase has to be dispersed with an Oil Phase into droplets. This oil phase contains a fluorosurfactant in order to prevent aggregation and agglomeration of the droplets. It is crucial to form droplets with one cell in each droplet, since it will assure that each bacterial cell is encapsulated correctly – possible formation of a film is hereby avoided. 3. The result of the previous two processes is a droplet with PEG and engineered E. coli bacteria inside an oil phase. With a microfluidic feature (bumpy mixer) the droplet can be stirred. The droplets are collected in a chamber where the click reaction is initiated with the use of UV light. Before these processes can be performed, certain questions have to be answered and certain research has to be done. For instance, how is it possible to form droplets? What is the optimal method to recollect the content of the droplets? And numerous of other questions that need answering for instance the required flow speed of the water and oil phase and the viscosities of the phases.

To Top