Topics
wavelengthCountry
nitrideChemical compound
We demonstrate the first implantable nanophotonic neural probes with integrated silicon nitride phased arrays. Coherent beam-steering is achieved in brain tissue by wavelength tuning. Beam profiles, optogenetic stimulation, and functional imaging are validated in vitro
pre-printOptical neural control requires light delivery techniques dependent on the experimental goa...
Optogenetic methods developed over the past decade enable unprecedented optical activation and silen...
There is a growing demand for the development of new types of implantable optoelectronics to suppor...
We demonstrate the first implantable nanophotonic neural probes with integrated silicon nitride phas...
Implantable silicon neural probes with integrated nanophotonic waveguides can deliver patterned dyna...
The use of nanophotonics to rapidly and precisely reconfigure light beams for the optical stimulatio...
We present implantable silicon neural probes with nanophotonic waveguide routing networks and gratin...
This thesis describes the development of a number of novel microfabricated neural probes for a varie...
We present implantable silicon neural probes with nanophotonic waveguide routing networks and gratin...
AbstractOptical stimulation and inhibition of neural tissue is a promising neuroscientific method to...
OBJECTIVE:The convergence of optogenetic and large-scale neural recording technologies opens enormou...
The integrated silicon photonics, or nanophotonics, platform was originally developed for optical in...
Optical methods are driving a revolution in neuroscience. Ignited by optogenetic techniques, a set o...
Optimal optogenetic perturbation of brain circuit activity often requires light delivery in a precis...
Implantable neural probes are one of the most important technologies for neuroscientists to detect a...
pre-printOptical neural control requires light delivery techniques dependent on the experimental goa...
Optogenetic methods developed over the past decade enable unprecedented optical activation and silen...
There is a growing demand for the development of new types of implantable optoelectronics to suppor...
We demonstrate the first implantable nanophotonic neural probes with integrated silicon nitride phas...
Implantable silicon neural probes with integrated nanophotonic waveguides can deliver patterned dyna...
The use of nanophotonics to rapidly and precisely reconfigure light beams for the optical stimulatio...
We present implantable silicon neural probes with nanophotonic waveguide routing networks and gratin...
This thesis describes the development of a number of novel microfabricated neural probes for a varie...
We present implantable silicon neural probes with nanophotonic waveguide routing networks and gratin...
AbstractOptical stimulation and inhibition of neural tissue is a promising neuroscientific method to...
OBJECTIVE:The convergence of optogenetic and large-scale neural recording technologies opens enormou...
The integrated silicon photonics, or nanophotonics, platform was originally developed for optical in...
Optical methods are driving a revolution in neuroscience. Ignited by optogenetic techniques, a set o...
Optimal optogenetic perturbation of brain circuit activity often requires light delivery in a precis...
Implantable neural probes are one of the most important technologies for neuroscientists to detect a...
pre-printOptical neural control requires light delivery techniques dependent on the experimental goa...
Optogenetic methods developed over the past decade enable unprecedented optical activation and silen...
There is a growing demand for the development of new types of implantable optoelectronics to suppor...
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