The advent of optical neural interfaces in neuroscience research has boosted the scientific community to devise novel methods and systems to interrogate brain cells and neural circuits. A promising approach relies in the use of light-matter, for both sensing and triggering neural activity. In this presentation we will describe our technology to fabricate different types of plasmonic structures on an optical neural implant, for enhanced bio-sensing, beam-manipulation and opto-thermal heat delivery in the brain.
Plasmonics on neural implants
Pisano F.;
2023
Abstract
The advent of optical neural interfaces in neuroscience research has boosted the scientific community to devise novel methods and systems to interrogate brain cells and neural circuits. A promising approach relies in the use of light-matter, for both sensing and triggering neural activity. In this presentation we will describe our technology to fabricate different types of plasmonic structures on an optical neural implant, for enhanced bio-sensing, beam-manipulation and opto-thermal heat delivery in the brain.
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