In order to track a specific neuron and keep good sampling neural signals during chronic implantation, the neural probes are highly desired to have moving capability. This paper presents a novel electrolysis-based parylene balloon actuator fabricated with MEMS technology. The actuator is integrated with silicon probe to make it movable. A new fabrication technology has been developed to build a parylene balloon structure with silicon spring structure, electrolysis electrodes and electrolyte inside. By applying little current to electrolysis electrodes, high pressure is generated inside the parylene balloon by electrolysis. The spring structure is stretched with the parylene balloon expansion. Therefore the neural probe is moved by the actua...
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...
We present the first multimodal Parylene-based biomimetic platform with the ability to measure tacti...
This work reports the design, fabrication, testing and modeling of electrolysis-based fully encapsul...
Neural probes are important tools in detecting and studying neuron activities. Although people have ...
We have designed, fabricated, and tested an inchworm actuator using water electrolysis as the mechan...
Recent studies using neuroprobes indicate that it is highly desirable for the probes to have moving ...
Over decades of cortical neural prosthesis, it was found that "movable" neural probes are important ...
Abstract—This work presents the first parylene-insulated silicon probes, which are used for neural p...
Abstract-This work presents the first parylene-insulated silicon probes, which are used for neural p...
Abstract—We report the design, fabrication, and charac-terization of electrochemical microelectromec...
This paper describes a new three-dimension (3D) flexible parylene-based microelectrode array (MEA) d...
We propose a novel fabrication process to make flexible microneedle electrode array. The process inc...
F2R is a generic IC fabrication based platform that allows for the fabrication of miniature and flex...
Abstract—We present the first electrochemical actuator with Parylene bellows for large-deflection op...
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...
We present the first multimodal Parylene-based biomimetic platform with the ability to measure tacti...
This work reports the design, fabrication, testing and modeling of electrolysis-based fully encapsul...
Neural probes are important tools in detecting and studying neuron activities. Although people have ...
We have designed, fabricated, and tested an inchworm actuator using water electrolysis as the mechan...
Recent studies using neuroprobes indicate that it is highly desirable for the probes to have moving ...
Over decades of cortical neural prosthesis, it was found that "movable" neural probes are important ...
Abstract—This work presents the first parylene-insulated silicon probes, which are used for neural p...
Abstract-This work presents the first parylene-insulated silicon probes, which are used for neural p...
Abstract—We report the design, fabrication, and charac-terization of electrochemical microelectromec...
This paper describes a new three-dimension (3D) flexible parylene-based microelectrode array (MEA) d...
We propose a novel fabrication process to make flexible microneedle electrode array. The process inc...
F2R is a generic IC fabrication based platform that allows for the fabrication of miniature and flex...
Abstract—We present the first electrochemical actuator with Parylene bellows for large-deflection op...
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...
We present the first multimodal Parylene-based biomimetic platform with the ability to measure tacti...