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Sensors 2020, 20, 6087 12 of 13 Appendix B. Coil Properties The following table describes the physical and electrical properties of the microcoils: Table A2. 1800 μm Diameter Microcoil Properties. Property Trace Width Trace Spacing Trace Thickness Resistivity Inductance Range 90–110 100–120 11–14 2.33 × 10−7–4.54 × 10−7 11.9–17.7 Units μm μm μm Ω · m nH References 1. The National Institute on Deafness and Other Communication Disorders Statistics. Cochlear Implants. 2012. Available online: https://www.nidcd.nih.gov/health/cochlear-implants (accessed on 15 September 2020). 2. Bonmassar, G. Solenoidal Micromagnetic Stimulation Enables Activation of Axons with Specific Orientation. Front. Physiol. 2016, 9, 724. 3. Mukesh, S. Modeling Intracochlear Magnetic Stimulation: A Finite-Element Analysis. IEEE Trans. Neural Syst. Rehabil. Eng. 2016, 25, 1353–1362. [CrossRef] [PubMed] 4. Mukesh, S. Magnetic Stimulation of Dissociated Cortical Neurons on a Planar Multielectrode Array. In Proceedings of the 2019 9th International IEEE/EMBS Conference on Neural Engineering (NER), San Francisco, CA, USA, 20–23 March 2019. 5. Hawkins, J E. Human Ear; Encyclopedia Britannica, Inc.: Edinburgh, UK, 2018. 6. MED-EL. Medical Electronics. 2014. Available online: https://blog.medel.com/close-up-with-cochlear- implant-electrode-arrays/ (accessed on 15 September 2020). 7. Bhatti, P.T. Highly Flexible Silicone Coated Neural Array for Intracochlear Electrical Stimulation. BioMed Res. Int. 2015, 2015, 1–10. [CrossRef] [PubMed] 8. Iverson, K. Cochlear Implantation Using Thin Film Array Electrodes. Otolaryngol. Neck Surg. 2017, 143, 89–90. [CrossRef] 9. Wise, K.D. High-Density Cochlear Implants with Position Sensing and Control. Hear. Res. J. 2008, 242, 22–30. [CrossRef] [PubMed] 10. Bhatti, P.T. A 32-Site 4-Channel High-Density Electrode Array for Cochlear Prosthesis. IEEE J. Solid State Circuits 2006, 41, 2965–2973. [CrossRef] 11. Wang, K. Imaged-Based Quality Indices of Aerosol Jet Printed Conductive Lines. In Proceedings of the SAMPE Tech Conference, Wichita, KS, USA, 21–24 October 2013. 12. Mukesh, S. Finite Element Analysis and Experimental Evaluation of Magnetic Stimulation of Neurons Using Microscale Coils Toward an Improved Cochlear Implant. Ph.D. Thesis, Georgia Institute of Technology, Atlanta, GA, USA, 2018. 13. Sirris. Aerosol Jet Printing. Available online: https://www.sirris.be/aerosol-jet-printing (accessed on 15 September 2020). 14. Sector, E.B. Principles of Aerosol Jet Printing. Flex. Print. Electron. 2018, 3, 035002. [CrossRef] 15. Bonmassar, G. EM fields Comparison between Planar vs. Solenoidal μm Coil Designs for Nerve Stimulation. In Proceedings of the 2017 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), Seogwipo, Korea, 11–15 July 2017. 16. Sarreal, R.R.S. Development of Silver-Nanoparticle-Based Microcoil for Electromagnetic Cochlear Stimulation [Oral presentation]. In Proceedings of the 15th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems, Virtual, 27–30 September 2020. 17. Rattay, F. Analysis of Models for External Stimulation of Axons. IEEE Trans. Biomed. Eng. 1986, 33, 974–977. [CrossRef] 18. Larsson, J. Electromagnetics from a quasistatic perspective. Am. Assoc. Phys. Teach. 2007, 3, 230–239. [CrossRef]PDF Image | Silver-Nanoparticle Microcoil via Aerosol Jet Printing
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