Literature DB >> 17271216

Sputtered iridium oxide films (SIROFs) for low-impedance neural stimulation and recording electrodes.

S F Cogan1, T D Plante, J Ehrlich.   

Abstract

Iridium oxide films formed by electrochemical activation of iridium metal (AIROF) or by electrochemical deposition (EIROF) are being evaluated as low-impedance charge-injection coatings for neural stimulation and recording. Iridium oxide may also be deposited by reactive sputtering from iridium metal in an oxidizing plasma. The characterization of sputtered iridium oxide films (SIROFs) as coatings for nerve electrodes is reported. SIROFs were characterized by cyclic voltammetry, electrochemical impedance spectroscopy, and potential transient measurements during charge-injection. The surface morphology of the SIROF transitions from smooth to highly nodular with increasing film thickness from 80 nm to 4600 nm. Charge-injection capacities exceed 0.75 mC/cm(2) with 0.75 ms current pulses in thicker films. The SIROF was deposited on both planar and non-planar substrates and photolithographically patterned by lift-off.

Entities:  

Year:  2004        PMID: 17271216      PMCID: PMC2709748          DOI: 10.1109/IEMBS.2004.1404158

Source DB:  PubMed          Journal:  Conf Proc IEEE Eng Med Biol Soc        ISSN: 1557-170X


  23 in total

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Review 2.  Electrical stimulation of excitable tissue: design of efficacious and safe protocols.

Authors:  Daniel R Merrill; Marom Bikson; John G R Jefferys
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3.  Design of a high-resolution optoelectronic retinal prosthesis.

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4.  In vitro comparison of the charge-injection limits of activated iridium oxide (AIROF) and platinum-iridium microelectrodes.

Authors:  Stuart F Cogan; Philip R Troyk; Julia Ehrlich; Timothy D Plante
Journal:  IEEE Trans Biomed Eng       Date:  2005-09       Impact factor: 4.538

5.  Neurotrophin-eluting hydrogel coatings for neural stimulating electrodes.

Authors:  Jessica O Winter; Stuart F Cogan; Joseph F Rizzo
Journal:  J Biomed Mater Res B Appl Biomater       Date:  2007-05       Impact factor: 3.368

6.  Sputtered iridium oxide films (SIROFs) for low-impedance neural stimulation and recording electrodes.

Authors:  S F Cogan; T D Plante; J Ehrlich
Journal:  Conf Proc IEEE Eng Med Biol Soc       Date:  2004

7.  Electrical stimulation with Pt electrodes. VIII. Electrochemically safe charge injection limits with 0.2 ms pulses.

Authors:  T L Rose; L S Robblee
Journal:  IEEE Trans Biomed Eng       Date:  1990-11       Impact factor: 4.538

8.  Methods and perceptual thresholds for short-term electrical stimulation of human retina with microelectrode arrays.

Authors:  Joseph F Rizzo; John Wyatt; John Loewenstein; Shawn Kelly; Doug Shire
Journal:  Invest Ophthalmol Vis Sci       Date:  2003-12       Impact factor: 4.799

9.  In vitro electrical properties for iridium oxide versus titanium nitride stimulating electrodes.

Authors:  James D Weiland; David J Anderson; Mark S Humayun
Journal:  IEEE Trans Biomed Eng       Date:  2002-12       Impact factor: 4.538

10.  Chronic neural recordings using silicon microelectrode arrays electrochemically deposited with a poly(3,4-ethylenedioxythiophene) (PEDOT) film.

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Journal:  J Neural Eng       Date:  2006-03-01       Impact factor: 5.379
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  24 in total

1.  Sputtered iridium oxide films (SIROFs) for low-impedance neural stimulation and recording electrodes.

Authors:  S F Cogan; T D Plante; J Ehrlich
Journal:  Conf Proc IEEE Eng Med Biol Soc       Date:  2004

2.  Electrodeposited platinum-iridium coating improves in vivo recording performance of chronically implanted microelectrode arrays.

Authors:  Isaac R Cassar; Chunxiu Yu; Jaydeep Sambangi; Curtis D Lee; John J Whalen; Artin Petrossians; Warren M Grill
Journal:  Biomaterials       Date:  2019-03-18       Impact factor: 12.479

3.  Upper threshold of extracellular neural stimulation.

Authors:  David Boinagrov; Susanne Pangratz-Fuehrer; Bongsoo Suh; Keith Mathieson; Natasha Naik; Daniel Palanker
Journal:  J Neurophysiol       Date:  2012-09-19       Impact factor: 2.714

4.  The effect of chronic intracortical microstimulation on the electrode-tissue interface.

Authors:  Kevin H Chen; John F Dammann; Jessica L Boback; Francesco V Tenore; Kevin J Otto; Robert A Gaunt; Sliman J Bensmaia
Journal:  J Neural Eng       Date:  2014-02-06       Impact factor: 5.379

5.  Electron transfer processes occurring on platinum neural stimulating electrodes: calculated charge-storage capacities are inaccessible during applied stimulation.

Authors:  Eric M Hudak; Doe W Kumsa; Heidi B Martin; J Thomas Mortimer
Journal:  J Neural Eng       Date:  2017-08       Impact factor: 5.379

6.  Robust penetrating microelectrodes for neural interfaces realized by titanium micromachining.

Authors:  Patrick T McCarthy; Kevin J Otto; Masaru P Rao
Journal:  Biomed Microdevices       Date:  2011-06       Impact factor: 2.838

7.  Neural electrode degradation from continuous electrical stimulation: comparison of sputtered and activated iridium oxide.

Authors:  Sandeep Negi; Rajmohan Bhandari; Loren Rieth; Rick Van Wagenen; Florian Solzbacher
Journal:  J Neurosci Methods       Date:  2009-10-28       Impact factor: 2.390

8.  Flexible nerve stimulation electrode with iridium oxide sputtered on liquid crystal polymer.

Authors:  Kevin Wang; Chung-Chiun Liu; Dominique M Durand
Journal:  IEEE Trans Biomed Eng       Date:  2009-01       Impact factor: 4.538

9.  Optimization of pillar electrodes in subretinal prosthesis for enhanced proximity to target neurons.

Authors:  Thomas Flores; Xin Lei; Tiffany Huang; Henri Lorach; Roopa Dalal; Ludwig Galambos; Theodore Kamins; Keith Mathieson; Daniel Palanker
Journal:  J Neural Eng       Date:  2018-02-01       Impact factor: 5.379

10.  In vivo imaging of calcium and glutamate responses to intracortical microstimulation reveals distinct temporal responses of the neuropil and somatic compartments in layer II/III neurons.

Authors:  James R Eles; Takashi D Y Kozai
Journal:  Biomaterials       Date:  2020-01-07       Impact factor: 12.479
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