Team:EPF-Lausanne/Tools/Microfluidics/HowTo1

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{{:Team:EPF-Lausanne/Templates/MicrofluidicsHeader|title=Microfluidics how-to part I: making chips}}
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{{:Team:EPF-Lausanne/Templates/MicrofluidicsHeader|title=Microfluidics How-To Part I: Making Chips}}
There are three main steps in the making of a microfluidic chip:
There are three main steps in the making of a microfluidic chip:
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Designing chips is a subtle task, but for many applications one can re-use an existing design. Moulds are also usually made using expensive equipment found in clean rooms.
Designing chips is a subtle task, but for many applications one can re-use an existing design. Moulds are also usually made using expensive equipment found in clean rooms.
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If you have a clean room, somebody there will be able to train you on fabrication, based on our [[/Team:EPF-Lausanne/Protocols/Master_microfabrication_for_PDMS_replica_molding|protocols]]. If you do not, you can try to experiment with making moulds out of laser machined metal, but it will probably be easier to order them. Stanford offer a [http://www.stanford.edu/group/foundry/index.html foundry service].
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If you have a clean room, somebody there will be able to train you on fabrication, based on our [https://2011.igem.org/Team:EPF-Lausanne/Protocols/Master_microfabrication_for_PDMS_replica_molding protocols]. If you do not, you can try to experiment with making moulds out of laser machined metal, but it will probably be easier to order them. Stanford offers a [http://www.stanford.edu/group/foundry/index.html foundry service].
Moulding is the most common task: it must be done over and over again, as the chips are usually single use. Again, this requires specific equipment not usually found in a bio lab. So unless a friendly lab in your neighbourhood is equipped, you'll probably have to order the chips.
Moulding is the most common task: it must be done over and over again, as the chips are usually single use. Again, this requires specific equipment not usually found in a bio lab. So unless a friendly lab in your neighbourhood is equipped, you'll probably have to order the chips.
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==Making a mould==  
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==Making a Mould==  
Our moulds are made by photolithography: a layer of AZ or SU-8 resist is spin-coated onto a silicon wafer, then exposed, developed,  
Our moulds are made by photolithography: a layer of AZ or SU-8 resist is spin-coated onto a silicon wafer, then exposed, developed,  
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For more information on PDMS chip fabrication: Mcdonald, J.C. et al. Fabrication of microfluidic systems in poly (dimethylsiloxane). Electrophoresis 21, 27–40(2000).
For more information on PDMS chip fabrication: Mcdonald, J.C. et al. Fabrication of microfluidic systems in poly (dimethylsiloxane). Electrophoresis 21, 27–40(2000).
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== Making the chips ==
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== Making the Chips ==
MITOMI chips are two layer devices. A thick upper layer is imprinted with the flow channels (those that will contain reagents) and a thin bottom layer is imprinted with the control channels (used to actuate on-chip valves). The role of each layer is explained further in [[Team:EPF-Lausanne/Tools/Microfluidics/HowTo2|Part II]].
MITOMI chips are two layer devices. A thick upper layer is imprinted with the flow channels (those that will contain reagents) and a thin bottom layer is imprinted with the control channels (used to actuate on-chip valves). The role of each layer is explained further in [[Team:EPF-Lausanne/Tools/Microfluidics/HowTo2|Part II]].

Latest revision as of 03:27, 22 September 2011