Team:ETH Zurich/lab/chip

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We investigated the combination of additive manufacturing (3D-printing) and PDMS chip fabrication for applications in synthetic biology. This rapid prototyping approach allowed us to update our chips continuously according to new insights from modeling or the wet lab and in particular to avoid more intricate photolitographic approaches, which generally require clean room access, relatively expensive raw materials, and in depth knowledge of etching techniques. As a result, we are convinced that the tinkering with 3D-printing for mold creation is more economical for our applications and perfectly in line with the do-it-yourself spirit of iGEM.
We investigated the combination of additive manufacturing (3D-printing) and PDMS chip fabrication for applications in synthetic biology. This rapid prototyping approach allowed us to update our chips continuously according to new insights from modeling or the wet lab and in particular to avoid more intricate photolitographic approaches, which generally require clean room access, relatively expensive raw materials, and in depth knowledge of etching techniques. As a result, we are convinced that the tinkering with 3D-printing for mold creation is more economical for our applications and perfectly in line with the do-it-yourself spirit of iGEM.
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Revision as of 15:01, 12 October 2014

iGEM ETH Zurich 2014