Feasibility Study of High-Performance Implantable Stimulation Electrode With Nanocomposite Gel Coating as a Brain–Machine Interface Device

Sensors and Materials - Japan
doi 10.18494/sam.2016.1371
Full Text
Abstract

Available in full text

Date
Authors

Unknown

Publisher

MYU K.K.

Related search

Defining Brain–machine Interface Applications by Matching Interface Performance With Device Requirements

Journal of Neuroscience Methods
Neuroscience
2008English

A Fully Implantable, Programmable and Multimodal Neuroprocessor for Wireless, Cortically Controlled Brain-Machine Interface Applications

Journal of Signal Processing Systems
ControlSystems EngineeringInformation SystemsSignal ProcessingSimulationHardwareArchitectureModelingTheoretical Computer Science
2012English

Overcoming the Blood-Brain Barrier With an Implantable Ultrasound Device

Clinical Cancer Research
Cancer ResearchOncology
2019English

One-Step Cathodic Electrodeposition of a Cobalt Hydroxide–graphene Nanocomposite and Its Use as a High Performance Supercapacitor Electrode Material

RSC Advances
ChemistryChemical Engineering
2018English

Utilizing Movement Synergies to Improve Decoding Performance for a Brain Machine Interface

2013English

Design and Development of Smart Brain-Machine-Brain Interface (SBMIBI) for Deep Brain Stimulation and Other Biomedical Applications

English

Development of Coating Wire Electrode for High Performance WEDM (1st Report)-Fundamental WEDM Characteristics of Coating Wire-

Denki Kako Gakkaishi
2005English

High-Performance Capacitive Deionization Disinfection of Water With Graphene Oxide-Graft-Quaternized Chitosan Nanohybrid Electrode Coating

ACS Nano
Materials ScienceNanoscienceEngineeringNanotechnologyAstronomyPhysics
2015English

Brain-Computer Interface Controlled Functional Electrical Stimulation Device for Foot Drop Due to Stroke

2012English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2024 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy