Development of wafer-scale multifunctional nanophotonic neural probes for brain activity mapping
Optical techniques, such as optogenetic stimulation and functional fluorescence imaging, have been revolutionary for neuroscience by enabling neural circuit analysis with cell-type specificity. To probe deep brain regions, implantable light sources are crucial. Silicon photonics, commonly used for d...
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Veröffentlicht in: | Lab on a chip 2024-04, Vol.24 (9), p.2397-2417 |
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Sprache: | eng |
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Zusammenfassung: | Optical techniques, such as optogenetic stimulation and functional fluorescence imaging, have been revolutionary for neuroscience by enabling neural circuit analysis with cell-type specificity. To probe deep brain regions, implantable light sources are crucial. Silicon photonics, commonly used for data communications, shows great promise in creating implantable devices with complex optical systems in a compact form factor compatible with high volume manufacturing practices. This article reviews recent developments of wafer-scale multifunctional nanophotonic neural probes. The probes can be realized on 200 or 300 mm wafers in commercial foundries and integrate light emitters for photostimulation, microelectrodes for electrophysiological recording, and microfluidic channels for chemical delivery and sampling. By integrating active optical devices to the probes, denser emitter arrays, enhanced on-chip biosensing, and increased ease of use may be realized. Silicon photonics technology makes possible highly versatile implantable neural probes that can transform neuroscience experiments.
We explore the development of multifunctional nanophotonic neural probes, integrating microelectrodes, optical emitters, and microfluidic channels for multimodal brain mapping. |
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ISSN: | 1473-0197 1473-0189 1473-0189 |
DOI: | 10.1039/d3lc00931a |