Add to ORKGThis paper presents the design, fabrication, and functional testing of a fully implantable, flexible, Parylene-enable neurostimulator that features single-channel wireless stimulation capability [1]. This system comprises a fold-and-bond microelectromechanical systems (MEMS) coil for wireless power and data transmission, a BION 1-3 CMOS stimulator chip, discrete capacitors, as well as a carrier substrate with two platinum stimulating electrodes and interconnections for system assembly. The physical geometries of the devices are designed for use in retinal implantation with the specifications determined from the implantation results in canine eyes. The coil and carrier substrate are separately fabricated using a Parylene–metal skin technolog...
We present the first single metal layer flexible microelectrode arrays designed for intraocular impl...
This article presents a versatile neurostimulation platform featuring a fully implantable multi-chan...
A wirelessly operated, minimally invasive retinal prosthesis was developed for preclinical chronic i...
This paper presents the design, fabrication, and functional testing of a fully implantable, flexible...
Parylene C, an emerging material in microelectromechanical systems (MEMS), is now widely applied to ...
Parylene C, an emerging material in microelectromechanical systems (MEMS), is now widely applied to ...
2018-05-09Implantable medical devices make possible the treatment of chronic conditions by providing...
Novel flexible parylene-based high-density electrode arrays have been developed for functional elect...
Abstract: Novel flexible parylene-based high-density electrode arrays have been developed for functi...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...
The goal of this project was to design, fabricate and test a multi-level micro coil, encased in pary...
The first flexible parylene-based multielectrode arrays (MEAs) designed for functional electrical st...
This paper presents an embedded chip integration technology that incorporates silicon housings and ...
Neural probes are important tools in detecting and studying neuron activities. Although people have ...
This paper presents a new 3D bottom-up packing technology for integrating a chip, an induction coil,...
We present the first single metal layer flexible microelectrode arrays designed for intraocular impl...
This article presents a versatile neurostimulation platform featuring a fully implantable multi-chan...
A wirelessly operated, minimally invasive retinal prosthesis was developed for preclinical chronic i...
This paper presents the design, fabrication, and functional testing of a fully implantable, flexible...
Parylene C, an emerging material in microelectromechanical systems (MEMS), is now widely applied to ...
Parylene C, an emerging material in microelectromechanical systems (MEMS), is now widely applied to ...
2018-05-09Implantable medical devices make possible the treatment of chronic conditions by providing...
Novel flexible parylene-based high-density electrode arrays have been developed for functional elect...
Abstract: Novel flexible parylene-based high-density electrode arrays have been developed for functi...
Active implantable medical devices have been developed for diagnosis, monitoring and treatment of la...
The goal of this project was to design, fabricate and test a multi-level micro coil, encased in pary...
The first flexible parylene-based multielectrode arrays (MEAs) designed for functional electrical st...
This paper presents an embedded chip integration technology that incorporates silicon housings and ...
Neural probes are important tools in detecting and studying neuron activities. Although people have ...
This paper presents a new 3D bottom-up packing technology for integrating a chip, an induction coil,...
We present the first single metal layer flexible microelectrode arrays designed for intraocular impl...
This article presents a versatile neurostimulation platform featuring a fully implantable multi-chan...
A wirelessly operated, minimally invasive retinal prosthesis was developed for preclinical chronic i...