The growth of neurons into networks of controlled geometry is of great interest in the field of cellbased biosensors, neuroelectronic circuits, neurological implants, pharmaceutical testing as well as fundamental biological questions about neuronal interactions. The precise control of the network architecture can be achieved by defined engineering of the surface material properties: this process is called neuronal cell patterning. Different techniques can be used to produce such surface patterns. We have chosen microcontact printing (mCP), because it is a comparatively simple and universal method for patterning biomolecules.
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