Add to ORKGSilicon-based microelectrodes have been confirmed to be helpful in neural prostheses. The fabricated 7-channel silicon-based microelectrode was feasible to be implanted into the brain cortex. The manufacturing process by microelectromechanical system (MEMS) technology was detailed with four photolithographic masks. The microscopic photographs and SEM images indicated that the probe shank was 3mm long, 100 mu m wide and 20 mu m thick with the recording sites spaced 120 mu m apart for good signal isolation. To facilitate the insertion and minimize the trauma, the microelectrode is narrowed down gradually near the tip with the tip taper angle of 6 degrees. Curve of the single recording site impedance versus frequency was shown by test in vitro...
Neural prostheses such as deep brain stimulation and cochlear implants are showing great promise for...
Abstract Silicon probes have played a key role in studying the brain. However, the stark mechanical ...
In this paper, manufacturing and in vivo testing of extreme-long Si-based neural microelectrode arr...
The development of an implantable five channel microelectrode array is presented for neural signal r...
A two-dimensional (2D) multi-channel silicon-based microelectrode array is developed for recording n...
Bidirectional neural interfaces for multi-channel, high-density recording and electrical stimulation...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...
Neuroprosthetic devices are widely employed in clinical and research settings. However, most of thes...
AbstractSilicon micromachined deep brain multielectrodes (up to 70mm) with monolithically integrated...
Extracellular neural recording requires neural probes having more recording sites as well as limited...
Silicon-on-insulator (SOI) substrate is widely used in micro-electro-mechanical systems (MEMS). With...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...
Micromachining technologies were established to fabricate microelectrode arrays and devices for inte...
AbstractA laminar 24-contact silicon electrode was designed for acute extracellular neural recording...
A unique structure for chronically implantable cortical electrodes using polyimide polymer was devis...
Neural prostheses such as deep brain stimulation and cochlear implants are showing great promise for...
Abstract Silicon probes have played a key role in studying the brain. However, the stark mechanical ...
In this paper, manufacturing and in vivo testing of extreme-long Si-based neural microelectrode arr...
The development of an implantable five channel microelectrode array is presented for neural signal r...
A two-dimensional (2D) multi-channel silicon-based microelectrode array is developed for recording n...
Bidirectional neural interfaces for multi-channel, high-density recording and electrical stimulation...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...
Neuroprosthetic devices are widely employed in clinical and research settings. However, most of thes...
AbstractSilicon micromachined deep brain multielectrodes (up to 70mm) with monolithically integrated...
Extracellular neural recording requires neural probes having more recording sites as well as limited...
Silicon-on-insulator (SOI) substrate is widely used in micro-electro-mechanical systems (MEMS). With...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...
Micromachining technologies were established to fabricate microelectrode arrays and devices for inte...
AbstractA laminar 24-contact silicon electrode was designed for acute extracellular neural recording...
A unique structure for chronically implantable cortical electrodes using polyimide polymer was devis...
Neural prostheses such as deep brain stimulation and cochlear implants are showing great promise for...
Abstract Silicon probes have played a key role in studying the brain. However, the stark mechanical ...
In this paper, manufacturing and in vivo testing of extreme-long Si-based neural microelectrode arr...