Synthetic Neuronal Circuits: Optically Active Semiconductor Microtubes As Remotely Accessible Sensors For Action Potentials
2015 7TH INTERNATIONAL IEEE/EMBS CONFERENCE ON NEURAL ENGINEERING (NER)(2015)
Abstract
In this work an advanced method of optical readout of action-potentials using optically active semiconductor microtubes (MTs) as resonators and potential tool for optogenetic circuits and 3D environment is presented. The microtubes are fabricated using a well-established method of lattice mismatched layers. GaAs quantum wells (QW) embedded in the multilayers act as optically active sensors for action potentials.
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Key words
synthetic neuronal circuits,remotely accessible sensors,action potentials,optical readout,optically active semiconductor microtubes,resonators,potential tool,optogenetic circuits,3D environment,lattice mismatched layers,quantum wells,multilayers,optically active sensors,GaAs
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