Add to ORKGNovel flexible parylene-based high-density electrode arrays have been developed for functional electrical stimulation in retinal and spinal cord prosthetics. These arrays are microfabricated according to a single-metal-layer process and a revolutionary dual-metal-layer process that promises to meet the needs of extremely high-density stimulation applications. While in many cases thin-film platinum electrodes in parylene C would be sufficient, high surface-area platinum electroplating has been shown to extend the lifetime of stimulated electrodes to more than 430 million pulses without failing. Iridium electrode arrays with higher charge delivery capacity have also been fabricated using a new high-temperature stabilized parylene variant, par...
This research presents new designs and materials for neural recording and stimulation technology. Gr...
This work presents a new multi-site probe array applied with parylene technology, used for neural pr...
A Parylene C neural probe with a three dimensional sheath structure was designed, fabricated, and ch...
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...
Novel flexible parylene-based high-density electrode arrays have been developed for functional elect...
The first flexible parylene-based multielectrode arrays (MEAs) designed for functional electrical st...
Novel flexible parylene-based high-density electrode arrays have been developed for functional elect...
The first flexible parylene-based multielectrode arrays (MEAs) designed for functional electrical st...
The problems of outer retinal degeneration and spinal cord injury affect millions of people worldwid...
Neural probes are important tools in detecting and studying neuron activities. Although people have ...
Parylene C, an emerging material in microelectromechanical systems (MEMS), is now widely applied to ...
This paper describes a new three-dimension (3D) flexible parylene-based microelectrode array (MEA) d...
Parylene C, an emerging material in microelectromechanical systems (MEMS), is now widely applied to ...
We present the first single metal layer flexible microelectrode arrays designed for intraocular impl...
This research presents new designs and materials for neural recording and stimulation technology. Gr...
This work presents a new multi-site probe array applied with parylene technology, used for neural pr...
A Parylene C neural probe with a three dimensional sheath structure was designed, fabricated, and ch...
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...
Novel flexible parylene-based high-density electrode arrays have been developed for functional elect...
The first flexible parylene-based multielectrode arrays (MEAs) designed for functional electrical st...
Novel flexible parylene-based high-density electrode arrays have been developed for functional elect...
The first flexible parylene-based multielectrode arrays (MEAs) designed for functional electrical st...
The problems of outer retinal degeneration and spinal cord injury affect millions of people worldwid...
Neural probes are important tools in detecting and studying neuron activities. Although people have ...
Parylene C, an emerging material in microelectromechanical systems (MEMS), is now widely applied to ...
This paper describes a new three-dimension (3D) flexible parylene-based microelectrode array (MEA) d...
Parylene C, an emerging material in microelectromechanical systems (MEMS), is now widely applied to ...
We present the first single metal layer flexible microelectrode arrays designed for intraocular impl...
This research presents new designs and materials for neural recording and stimulation technology. Gr...
This work presents a new multi-site probe array applied with parylene technology, used for neural pr...
A Parylene C neural probe with a three dimensional sheath structure was designed, fabricated, and ch...