Optical Microresonators: Approaching Integrated Hybrid Neural Circuits: Axon Guiding on Optically Active Semiconductor Microtube Arrays (Adv. Mater. Interfaces 24/2016) | Zendy

Koitmäe Aune | Zendy; Harberts Jann | Zendy; Loers Gabriele | Zendy; Müller Manuel | Zendy; Bausch Cornelius S. | Zendy; Sonnenberg David | Zendy; Heyn Christian | Zendy; Zierold Robert | Zendy; Hansen Wolfgang | Zendy; Blick Robert H. | Zendy

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Optical Microresonators: Approaching Integrated Hybrid Neural Circuits: Axon Guiding on Optically Active Semiconductor Microtube Arrays (Adv. Mater. Interfaces 24/2016)

Author(s) -

Koitmäe Aune,

Harberts Jann,

Loers Gabriele,

Müller Manuel,

Bausch Cornelius S.,

Sonnenberg David,

Heyn Christian,

Zierold Robert,

Hansen Wolfgang,

Blick Robert H.

Publication year - 2016

Publication title -

advanced materials interfaces

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.671

H-Index - 65

ISSN - 2196-7350

DOI - 10.1002/admi.201670117

Subject(s) - materials science , semiconductor , biological neural network , optoelectronics , optically active , electric field , integrated optics , photonics , optics , electronic circuit , nanotechnology , physics , computer science , chemistry , organic chemistry , quantum mechanics , machine learning

Aune Koitmäe and co‐workers utilize an array of optically active semiconductor microtubes to build highly defined neural networks in article 1600746. This enables a remote optical detection of action potentials via changing electric field during propagation of action potentials. The axons in the tubes are detected via a confocal microscope.

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