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Journal Abstract Search

444 related items for PubMed ID: 22064890

  • 21. Repeated voltage biasing improves unit recordings by reducing resistive tissue impedances.
    Johnson MD, Otto KJ, Kipke DR.
    IEEE Trans Neural Syst Rehabil Eng; 2005 Jun; 13(2):160-5. PubMed ID: 16003894
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  • 22. Neural stimulation and recording with bidirectional, soft carbon nanotube fiber microelectrodes.
    Vitale F, Summerson SR, Aazhang B, Kemere C, Pasquali M.
    ACS Nano; 2015 Jun; 9(4):4465-74. PubMed ID: 25803728
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  • 23. Hydrophilic modification of neural microelectrode arrays based on multi-walled carbon nanotubes.
    Chen CH, Su HC, Chuang SC, Yen SJ, Chen YC, Lee YT, Chen H, Yew TR, Chang YC, Yeh SR, Yao DJ.
    Nanotechnology; 2010 Dec 03; 21(48):485501. PubMed ID: 21051797
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  • 24. Direct-growth carbon nanotubes on 3D structural microelectrodes for electrophysiological recording.
    Pan AI, Lin MH, Chung HW, Chen H, Yeh SR, Chuang YJ, Chang YC, Yew TR.
    Analyst; 2016 Jan 07; 141(1):279-84. PubMed ID: 26588673
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  • 25. PEDOT-CNT coated electrodes stimulate retinal neurons at low voltage amplitudes and low charge densities.
    Samba R, Herrmann T, Zeck G.
    J Neural Eng; 2015 Feb 07; 12(1):016014. PubMed ID: 25588201
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  • 26. Reliability of signals from a chronically implanted, silicon-based electrode array in non-human primate primary motor cortex.
    Suner S, Fellows MR, Vargas-Irwin C, Nakata GK, Donoghue JP.
    IEEE Trans Neural Syst Rehabil Eng; 2005 Dec 07; 13(4):524-41. PubMed ID: 16425835
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  • 32. Evaluation of microelectrode materials for direct-current electrocorticography.
    Li C, Narayan RK, Wu PM, Rajan N, Wu Z, Mehan N, Golanov EV, Ahn CH, Hartings JA.
    J Neural Eng; 2016 Feb 07; 13(1):016008. PubMed ID: 26655565
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  • 33. Highly stable carbon nanotube doped poly(3,4-ethylenedioxythiophene) for chronic neural stimulation.
    Luo X, Weaver CL, Zhou DD, Greenberg R, Cui XT.
    Biomaterials; 2011 Aug 07; 32(24):5551-7. PubMed ID: 21601278
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  • 34. Integrated circuit amplifiers for multi-electrode intracortical recording.
    Jochum T, Denison T, Wolf P.
    J Neural Eng; 2009 Feb 07; 6(1):012001. PubMed ID: 19139560
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  • 37. Au Hierarchical Nanostructure-Based Surface Modification of Microelectrodes for Improved Neural Signal Recording.
    Woo H, Kim S, Nam H, Choi W, Shin K, Kim K, Yoon S, Kim GH, Kim J, Lim G.
    Anal Chem; 2021 Aug 31; 93(34):11765-11774. PubMed ID: 34387479
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  • 39. Improvement of signal-to-interference ratio and signal-to-noise ratio in nerve cuff electrode systems.
    Chu JU, Song KI, Han S, Lee SH, Kim J, Kang JY, Hwang D, Suh JK, Choi K, Youn I.
    Physiol Meas; 2012 Jun 31; 33(6):943-67. PubMed ID: 22551721
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  • 40. Ruthenium oxide based microelectrode arrays for in vitro and in vivo neural recording and stimulation.
    Atmaramani R, Chakraborty B, Rihani RT, Usoro J, Hammack A, Abbott J, Nnoromele P, Black BJ, Pancrazio JJ, Cogan SF.
    Acta Biomater; 2020 Jan 01; 101():565-574. PubMed ID: 31678740
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