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{1356}
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ref: -2016 tags: Kozai carbon fiber microelectrodes JNE PEDOT PSS pTS date: 04-27-2017 01:42 gmt revision:6 [5] [4] [3] [2] [1] [0] [head]

PMID-27705958 Chronic in vivo stability assessment of carbon fiber microelectrode arrays.

  • showed excellent recording characteristics and nearly zero glial scarring.
  • 6.4um carbon fiber + 800nm parylene-C = 8.4um.
    • Cytec Thoronel T-650 CF, Youngs modulus = 255 GPa, tensile strength = 4.28 GPa, PAN-based.
  • Everything protected with our wonderful phenol epoxy 353NDT, heat-cure.
  • Used two coating solutions:
    • Solution of 0.01 M 3,4-ethylenedioxythiophene (483028, Sigma-Aldrich, St. Louis, MO): 0.1 M sodium p-toluenesulfonate (152536, Sigma-Aldrich, St. Louis, MO).
      • pTS is not that dissimilar from it's alkyl cousin, SPS, {1353}. Likely a soapy chemical due to the opposed methyl and sulfonic acid group; benzine will take up less room in the polymer c.f. SDS & may lower the oxidation potential of EDOT.
      • Tosylates have been explored as a EDOT counterion : PMID-22383043 Characterization of poly(3,4-ethylenedioxythiophene):tosylate conductive polymer microelectrodes for transmitter detection. and PEDOT-TMA
    • Solution was composed of 0.01 M 3,4-ethylene-dioxythiophene (483028, Sigma-Aldrich, St. Louis, MO):0.1 M polystyrene sulfonate (m.w. 70.000, 222271000, Acros, NJ).
    • For each solution the electrodeposition was carried out by applying 100 pA/channel for 600 s to form a layer of poly(3,4-ethylenedioxythiophene):sodium p-toluenesulfonate (PEDOT:pTS) or poly(3,4-ethylenedioxythiophene):polystyrene sulfonate (PEDOT:PSS).
      • Weird, would use voltage control here..
  • According to works by Green et al [45] and Hukins et al [46], equation (1) can be used to determine the aging time that
the fibers have undergone: t 37=t TQ10 T37)/10 where t 37 is the simulated aging time at 37 °C, t T is the amount of real time that the samples have been kept at the elevated temperature, T , and Q10 is an aging factor that is equal to 2, according to ASTM guidelines for polymer aging [47].
  • Show > 2MOhm impedance of the small-area electrodes. At the aging endpoint, PEDOT:pTS had about half the impedance of PEDOT:PSS.
    • 4M PSS, 7M pTS, both plated down to ~ 130k initial, went up to 2M pSS, 840k pTS.
  • Recording capability quite stellar
  • Likewise for the glial response.

{1388}
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ref: -0 tags: PEDOT PSS electroplate eletrodeposition neural recording michigan probe stimulation CSC date: 04-27-2017 01:36 gmt revision:1 [0] [head]

PMID-19543541 Poly(3,4-ethylenedioxythiophene) as a micro-neural interface material for electrostimulation

  • 23k on a 177um^2 site.
  • demonstrated in-vitro durable stimulation.
  • Electrodeposited with 6na for 900 seconds per electrode.
    • Which is high -- c.f. 100pA for 600 seconds {1356}
  • Greater CSC and lower impedance / phase than (comparable?) Ir or IrOx plating.

{747}
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ref: Seymour-2007.09 tags: neural probe design recording Kipke Seymour parelene MEA histology PEDOT date: 02-23-2017 23:52 gmt revision:13 [12] [11] [10] [9] [8] [7] [head]

PMID-17517431[0] Neural probe design for reduced tissue encapsulation in CNS.

  • See conference proceedings too: PMID-17947102[1] Fabrication of polymer neural probes with sub-cellular features for reduced tissue encapsulation.
    • -- useful information.
  • They use SU8 - photoresist! - as a structural material. See also this.
    • They use silicon as a substrate for the fabrication, but ultimately remove it. Electrodes could be made of titanium, modulo low conductivity.
  • Did not / could not record from these devices. Only immunochemistry.
  • Polymer fibers smaller than 7um are basically invisible to the immune system. See [2]
  • Their peripheral recording site is 4 x 5um - but still not invisible to microglia. Perhaps this is because of residual insertion trauma, or movement trauma? They implanted the device flush with the cortical surface, so there should have been little cranial tethering.
  • Checked the animals 4 weeks after implantation.
  • Peripheral electrode site was better than shank location, but still not perfect. Well, any improvement is a good one...
  • No statistical difference between 4x5um lattice probes, 10x4um probes, 30x4um, and solid (100um) knife edge.
    • Think that this may be because of electrode micromotion -- the lateral edge sites are still relatively well connected to the thick, rigid shank.
  • Observed two classes of immune reactivity --
    • GFAP reactive hypertrophied astrocytes.
    • devoid of GFAP, neurofilament, and NEuN, but always OX-42 and often firbronectin and laminin positive as well.
    • Think that the second may be from meningeal cells pulled in with the stab wound.
  • Sensitivity is expected to increase with decreased surface area (but similar low impedance -- platinum black or oxidized iridium or PEDOT {1112} ).
  • Thoughts: it may be possible to put 'barbs' to relieve mechanical stress slightly after the probe location, preferably spikes that expand after implantation.
  • His thesis {1110}

____References____

[0] Seymour JP, Kipke DR, Neural probe design for reduced tissue encapsulation in CNS.Biomaterials 28:25, 3594-607 (2007 Sep)
[1] Seymour JP, Kipke DR, Fabrication of polymer neural probes with sub-cellular features for reduced tissue encapsulation.Conf Proc IEEE Eng Med Biol Soc 1no Issue 4606-9 (2006)
[2] Sanders JE, Stiles CE, Hayes CL, Tissue response to single-polymer fibers of varying diameters: evaluation of fibrous encapsulation and macrophage density.J Biomed Mater Res 52:1, 231-7 (2000 Oct)

{1381}
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ref: -0 tags: glassy carbon SU-8 pyrolysis CEC microelectrode stimulation stability platinum PEDOT date: 02-17-2017 00:05 gmt revision:2 [1] [0] [head]

A novel pattern transfer technique for mounting glassy carbon microelectrodes on polymeric flexible substrates

  • Use inert-atmosphere pyrolysis @ 900 - 1000 C of 20um SU-8 (which is aromatic) on a thermal oxide wafer.
  • Followed by spin & cure of PI.
  • Demonstrate strong carbonyl bonding of the glassy carbon with mechanical and FTIR testing.
  • Use of photosensitive PI allows through-vias to connect Cr/Au conductive traces.

PMID-28084398 Highly Stable Glassy Carbon Interfaces for Long-Term Neural Stimulation and Low-Noise Recording of Brain Activity

  • Use EIS to show superior charge-injection properties + stability of glassy carbon electrodes vs. Pt electrodes.
    • GC lasted > 5e6 pulses; Pt electrodes delaminated after 1e6 pulses.
    • Hydrogen bonding (above) clearly superior than neat PI-Pt interface
  • GC electrodes were, true to their name, glassy and much smoother than the platinum electrodes.
  • Further reduced impedance with PEDOT-PSS coating.
    • PEDOT-PSS coating on glassy carbon was, in their hands, far more stable than PEDOT-PSS on platinum.
  • All devices, GC, PEDOT:PSS, and Pt, had similar biocompatibility in their assay (figure 7)

{1353}
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ref: -0 tags: PEDOT electropolymerization electroplating gold TFB borate counterion acetonitrile date: 10-18-2016 07:49 gmt revision:3 [2] [1] [0] [head]

Electrochemical and Optical Properties of the Poly(3,4-ethylenedioxythiophene) Film Electropolymerized in an Aqueous Sodium Dodecyl Sulfate and Lithium Tetrafluoroborate Medium

  • EDOT has a higher oxidation potential than water, which makes polymers electropolymerized from water "poorly defined".
  • Addition of SDS lowers the oxidation potential to 0.76V, below that of EDOT in acetonitrile at 1.1V.
  • " The potential was first switched from open circuit potential to 0.5 V for 100 s before polarizing the electrode to the desired potential. This initial step was to allow double-layer charging of the Au electrode|solution interface, which minimizes the distortion of the polymerization current transient by double-layer capacitance charging.17,18 "
    • Huh, interesting.
  • Plated at 0.82 - 0.84V, 0.03M EDOT conc.
  • 0.1M LiBF4 anion / electrolyte; 0.07M SDS sufactant.
    • This SDS is incorporated into the film, and affects redox reactions as shown in the cyclic voltammagram (fig 4)
      • Doping level 0.36
    • BF4-, in comparison, can be driven out of the film.

Improvement of the Electrosynthesis and Physicochemical Properties of Poly(3,4-ethylenedioxythiophene) Using a Sodium Dodecyl Sulfate Micellar Aqueous Medium

  • "The oxidation potential of thiopene = 1.8V; water = 1.23V.
  • Claim: "The polymer films prepared in micellar medium [SDS] are more stable than those obtained in organic solution as demonstrated by the fact that, when submitted to a great number of redox cycles (n ≈ 50), there is no significant loss of their electroactivity (<10%). These electrochemical properties are accompanied by color changes of the film which turns from blue-black to red-purple upon reduction."
  • Estimate that there is about 21% DS- anions in the PEDOT - SDS films.
    • Cl - was at ~ 7%.
  • I'm still not sure about incorporating soap into the electroplating solution.. !

Electrochemical Synthesis of Poly(3,4-ethylenedioxythiophene) on Steel Electrodes: Properties and Characterization

  • 0.01M EDOT and 0.1M LiClO4 in acetonitrile.
  • Claim excellent adhesion & film properties to 316 SS.
  • Oxidation / electrodeposition at 1.20V; voltages higher than 1.7V resulted in flaky films.

PMID-20715789 Investigation of near ohmic behavior for poly(3,4-ethylenedioxythiophene): a model consistent with systematic variations in polymerization conditions.

  • Again use acetonitrile.
  • 1.3V vs Ag/AgCl electrode.
  • Perchlorate and tetraflouroborate both seemed the best counterions (figure 4).
  • Figure 5: Film was difficult to remove from surface.
    • They did use a polycrystaline Au layer:
    • "The plating process was allowed to run for 1 min (until approximately 100 mC had passed) at a constant potential of 0.3 V versus Ag/AgCl in 50 mM HAuCl4 prepared in 0.1 M NaCl."
  • Claim that the counterions are trapped; not in agreement with the SDS study above.
  • "Conditions for the consistent production of conducting polymer films employing potentiostatic deposition at 1.3 V for 60-90 s have been determined. The optimal concentration of the monomer is 0.0125 M, and that of the counterion is 0.05 M. "

PMID-24576579 '''Improving the performance of poly(3,4-ethylenedioxythiophene) for brain–machine interface applications"

  • Show that TFB (BF4-) is a suitable counterion for EDOT electropolymerization.
  • Comparison is between PEDOT:TFB deposited in an anhydrous acetronitrile solution, and PEDOT:PSS deposited in an aqueous solution.
    • Presumably the PSS brings the EDOT into solution (??).
  • figure 3 is compelling, but long-term, electrodes are not that much better than Au!
    • Maybe we should just palate with that.

PEDOT-modified integrated microelectrodes for the detection of ascorbic acid, dopamine and uric acid

  • Direct comparison of acetonitrile and water solvents for electropolymerization of EDOT.
  • "PEDOT adhesion is best on gold surface due to the strong interactions between gold and sulphur atoms.
  • images/1353_2.pdf
    • Au plating is essential!

{1112}
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ref: Seymour-2011.06 tags: PEDOT Seymour electrode recording parylene date: 08-06-2014 22:39 gmt revision:3 [2] [1] [0] [head]

PMID-21301965[0] Novel multi-sided, microelectrode arrays for implantable neural applications.

  • There are problems with parylene multielectrode arrays:
    • water and salts will rapidly diffuse into the various interfacial boundaries
    • Interfacial delamination due to poor wet adhesion of parylene on metal
      • This possibly due to mechanical stress
      • causes excessive cross-talk or noise.
    • Parylene-C devices are prone to poor adhesion at either the dielectric to dielectric interface or at the dielectric to metal interface *** (Sharma and Yasuda 1982; Yasuda et al 2001)
  • solution: PPXCH 2NH 2 and PPXCHO -- reactive parylene (amine bonds?!)
  • PEDOT is absolutely essential for attaining reasonable performance / impedance from the 85um^2 gold electrodes.
    • Thermal noise on 280um^2 and 170um^2 Au electrodes was too high to record neurons.
    • AU thickness 0.5um.
  • Performed soak tests on their electrodes; the reactive parylene is good, but not sure if it's a worthy improvement.

____References____

[0] Seymour JP, Langhals NB, Anderson DJ, Kipke DR, Novel multi-sided, microelectrode arrays for implantable neural applications.Biomed Microdevices 13:3, 441-51 (2011 Jun)