Materials Sciences and Applications

Materials Sciences and Applications

ISSN Print: 2153-117X
ISSN Online: 2153-1188
www.scirp.org/journal/msa
E-mail: msa@scirp.org
"Design and Implementation Challenges of Microelectrode Arrays: A Review"
written by Bahareh Ghane-Motlagh, Mohamad Sawan,
published by Materials Sciences and Applications, Vol.4 No.8, 2013
has been cited by the following article(s):
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[11] Electrochemical Roughening and Carbon Nanotube Coating of Tetrodes for Chronic Single-Unit Recording
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[12] Cobalt Corrole/Carbon Nanotube Enables Simultaneous Electrochemical Monitoring of Oxygen and Ascorbic Acid in Rat Brain
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[15] Numerical simulations and electrochemical experiments of the mass transfer of microvias electroforming under ultrasonic agitation
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[16] PEDOT: PSS coating on gold microelectrodes with excellent stability and high charge injection capacity for chronic neural interfaces
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[19] In Vivo Monitoring of Oxygen Fluctuation Simultaneously at Multiple Sites of Rat Cortex during Spreading Depression
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[20] Neuroprosthetics for Human Performance Optimization
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[21] Cell Adhesion on Conducting Polymers: Molecular Insights from Single Cell Force Spectroscopy
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[22] Sensors Based on Conducting Polymers for Measurement of Physiological Parameters
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[23] Electrodes based on PPy polymer for electrocardiography and impedance plethysmography
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[25] Design and manufacturing challenges of optogenetic neural interfaces: a review
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[26] Recording nerve signals in canine sciatic nerves with a flexible penetrating microelectrode array
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[27] Group 14 and 15 elements as building blocks for low dimensional functional nanostructures
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[28] Titre
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[32] Reconstructing Neural Parameters and Synapses of arbitrary interconnected Neurons from their Simulated Spiking Activity
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[33] Direct growth of carbon nanotubes on new high-density 3D pyramid-shaped microelectrode arrays for brain-machine interfaces
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[34] Iridium Oxide–Electrodeposited Nanoporous Gold Multielectrode Array with Enhanced Stimulus Efficacy
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[35] (Invited) Silicon Carbide as a Robust Neural Interface
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[36] Investigation of the Mechanical Behaviour of Porous Silicon Neural Microprobes
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[37] Scalable and Flexible Bioelectronics and Its Applicationsto Medicine
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[38] Reconstruction of recurrent synaptic connectivity of thousands of neurons from simulated spiking activity
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[39] Microelectrode array system for neuron-muscular application
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[40] Scalable and Flexible Bioelectronics and Its Applications to Medicine
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[41] Lifetime assessment of atomic-layer-deposited Al< sub> 2 O< sub> 3–Parylene C bilayer coating for neural interfaces using accelerated age testing and electrochemical characterization
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[42] Polymer Integration for Packaging of Implantable Sensors
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[43] Microshaping of Aluminum-based Neural Microelectrode Arrays Using Chemical Wet-etching
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[44] High-density 3D pyramid-shaped microelectrode arrays for brain-machine interface applications
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