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Implantable Graphene-based Neural Electrode Interfaces for Electrophysiology and Neurochemistry in In Vivo Hyperacute Stroke Model
Ta Chung Liu
, Min Chieh Chuang
, Chao Yi Chu
,
Wei Chen Huang
, Hsin Yi Lai
, Chao Ting Wang
, Wei Lin Chu
,
San Yuan Chen
*
,
You Yin Chen
*
此作品的通信作者
生物醫學工程學系
國立陽明交通大學
材料科學與工程學系
研究成果
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同行評審
62
引文 斯高帕斯(Scopus)
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Keyphrases
Hydrogen Peroxide
100%
Graphene-based Materials
100%
Neuronal Activity
100%
Electrode-electrolyte Interface
100%
Electrophysiology
100%
Neural Probe
100%
Nanocomposite Electrode
100%
Modified Electrode
100%
Neurochemistry
100%
Hyperacute Stroke
100%
Stroke Model
100%
Neural Electrode
100%
Functional Change
50%
Fast Response
50%
Multi-channel
50%
Reduced Graphene Oxide
50%
High Spatial Resolution
50%
Low Detection Limit
50%
Electrostatic Interaction
50%
Oxidation-reduction
50%
Cyclic Voltammetry
50%
High Temporal Resolution
50%
Chemical Molecule
50%
Electrochemical Techniques
50%
Electrocatalytic Activity
50%
Time Monitoring
50%
Sensing Platform
50%
Gold Oxide
50%
Reliable Sensing
50%
Somatosensory Evoked Potentials
50%
Chloride Ion
50%
Amperometric Response
50%
H2O2 Detection
50%
Large Active Area
50%
Non-coated
50%
Gold Occurrence
50%
GO Sheets
50%
Chemical Interface
50%
GO Reduction
50%
Simultaneous Occurrence
50%
Rapid Sensing
50%
Implantable Probe
50%
Photothrombotic Stroke
50%
Implantable Microelectrode Array
50%
Neural Electrical Signals
50%
Engineering
Graphene
100%
Nanocomposite
100%
Fast Response
50%
One Step
50%
Multichannel
50%
Spatial Resolution
50%
Detection Limit
50%
Active Area
50%
Electrical Signal
50%
Reduced Graphene Oxide
50%
Scan Rate
50%
Microelectrode Array
50%
Electrochemical Method
50%
Temporal Resolution
50%
Electrocatalytic Activity
50%
Neuroscience
In Vivo
100%
Hydrogen Peroxide
100%
Neurochemistry
100%
Electrophysiology
100%
Cerebrovascular Accident
100%
In Vitro
66%
Neuronal Activity
66%
Somatosensory Evoked Potential
33%
Cyclic Voltammetry
33%
Chemistry
Graphene
100%
electrode
100%
Hydrogen Peroxide
60%
Nanocomposite
40%
Modified Electrodes
40%
Electrostatic Interaction
20%
Graphene Oxide
20%
Cyclic Voltammetry
20%
Electrocatalytic Activity
20%
Amperometric
20%
Microelectrode
20%
Chloride Ion
20%
Material Science
Graphene
100%
Hydrogen Peroxide
100%
Nanocomposite
66%
Oxide Compound
33%
Oxidation Reaction
33%
Reduced Graphene Oxide
33%
Electrostatic Interaction
33%
Cyclic Voltammetry
33%