Welcome to Wireless Probe Wiki!

Developers of the wireless optogenetic probes have successfully demonstrated and utilized various versions of these probes in a range of behavior neuroscience studies, as documented in the following publications:

• • Jeon et al., “Adolescent parvalbumin expression in the left orbitofrontal cortex shapes sociability in female mice”, Journal of Neuroscience 43, 1555-1571 (2023) → Link

  • Parker et al., “Customizable, wireless and implantable neural probe design and fabrication via 3D printing”, Nature Protocols 18, 3-21 (2023) → Link

  • Qazi et al., “Scalable and modular wireless-network infrastructure for large-scale behavioural neuroscience”, Nature Biomedical Engineering 6, 771-786 (2022) → Link

  • Kim et al., “Soft subdermal implant capable of wireless battery charging and programmable controls for applications in optogenetics”, Nature Communications 12, 535 (2021) → Link

  • Lee et al., “Rapidly-customizable, scalable 3D-printed wireless optogenetic probes for versatile applications in neuroscience”, Advanced Functional Materials 30, 2004285 (2020) → Link

  • Byun et al., “Mechanically transformative electronics, sensors, and implantable devices”, Science Advances 5, eaay0418 (2019) → Link

  • Qazi et al., “Wireless optofluidic brain probes for chronic neuropharmacology and photostimulation”, Nature Biomedical Engineering 3, 655-669 (2019) → Link

We encourage the probe users to provide feedback and comments to contribute to future improvements and developments. 

If you require custom designs and advanced wireless operations, such as closed-loop control, please reach out to the developers for opportunities to collaborate.