Bioelectronics
Department of Microelectronics

Johan Frijns

Publications

  1. A 0.042 mm^2 programmable biphasic stimulator for cochlear implants suitable for a large number of channels
    W. Ngamkham; M.N. van Dongen; W.A. Serdijn; C.J. Bes; J.J. Briaire; J.H.M. Frijns;
    ArXiv.org,
    January 29 2015.
    document

  2. A 21-bit Companding Two-Step Analog-to-Digital Converter using a Minimum Amount of High Voltage Devices for Recording Neural Responses in Cochlear Implants
    Cees-Jeroen Bes; Reza Lotfi; Wouter Serdijn; Jeroen Briaire; Johan Frijns;
    In Book of Abstracts, 5th Dutch Bio-Medical Engineering Conference,
    Egmond aan Zee, the Netherlands, January 22-23 2015.
    document

  3. Micromachined cochlear implant
    P.J. French; N. Lawand; L. Pakula; H. van Zeijl; J.H.M. Frijns; J. Braire;
    In Proceeding Smart Systems Integration,
    Copenhagen, Denmark, mesago, pp. 265-271, March 2015.

  4. An additive instantaneously companding neural readout system for cochlear implants
    Cees-Jeroen Bes; Wouter A. Serdijn; Jeroen J. Briaire; Johan H.M. Frijns;
    In Book of Abstracts, 4th Dutch Conference on Bio-Medical Engineering (BME),
    Egmond aan Zee, the Netherlands, Jan. 24-25 2013.

  5. An improved system approach towards future cochlear implants
    N.S. Lawand; W. Ngamkham; G. Nazarian; P.J. French; W.A. Serdijn; G.N. Gaydadjiev; J.J. Briaire; J.H.M. Frijns;
    In Proc. 35th Annual International Conference of the IEEE EMBS (EMBC),
    Osaka, Japan, IEEE, pp. 5163-5166, July 3-7 2013.
    document

  6. Titanium nitride (TiN) as a gate material in BiCMOS devices for biomedical implants
    N.S. Lawand; H.W. van Zeijl; P.J. French; JJ. Briaire; J.H.M. Frijns;
    In IEEE Sensors,
    Baltimore, USA, IEEE, Nov 2013.

  7. An improved system approach towards future cochlear implants
    N.S. Lawand; W. Ngamkham; G. Nazarian; P.J. French; W.A. Serdijn; G.N. Gaydadjiev; JJ. Briaire; J.H.M. Frijns;
    In IEEE EMBS,
    Osaka, Japan, IEEE, pp. 5163-5166, July 2013.

  8. An Additive Instantaneously Companding Neural Readout System for Cochlear Implants
    Cees-Jeroen Bes; Wouter A. Serdijn; Jeroen J. Briaire; Johan H.M. Frijns;
    In Book of Abstracts, 4th International Conference on Neuroprosthetic Devices (ICNPD-2012),
    Freiburg, Germany, Nov. 19-20 2012.
    document

  9. Long term cochlear implant electrode improvement for stimulation and sensing neuronal activity
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Proceedings 6th International Conference on Sensing Technology,
    Kolkata, India, IEEE, Dec 2012.

  10. TiN as an microelectrode material for nerve stimulation and sensing
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Annual IEEE EMBS Micro and Nanotechnology in Medicine Conference,
    Hawaii, USA, IEEE, Dec 2012.

  11. Titanium nitride as a micro-electrode material for auditory nerve stimulation and sensing purposes
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Proceedings 4th International Conference on Neuroprosthetic Devices,
    Freiburg, Germany, NeuroTechZone, Nov 2012.

  12. Cochlear implant electrode development for improved implants
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Proc. Conference for ICT-Research in the Netherlands (ICT.OPEN),
    Rotterdam, the Netherlands, Oct 2012.

  13. Thin titanium nitride films deposited using DC magnetron sputtering used for neural stimulation and sensing purposes
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Proceedings Eurosensors,
    Krakow, Poland, September 2012.

  14. Cochlear implant electrode development for improved implants
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Proceeding EMBS,
    San Diego, USA, August 2012.

  15. Development of microelectrode material for nerve stimulation using TiN
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Proceeding IC-MAST-2012,
    Budapest, Hungary, May 2012.

  16. Silicon probes for cochlear auditory nerve stimulation and measurement
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    Advanced Materials Research,
    Volume 254, pp. 82-85, 2011.

  17. Silicon probes for cochlear auditory nerve stimulation and measurement
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In International Conference on Materials for Advanced Technologies (ICMAT 2011),
    Singapore, June 2011.

  18. Design and fabrication of stiff silicon probes: A step towards sophisticated cochlear implant electrodes
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Proceedings Eurosensors XXV,
    Athens, Greece, IEEE, pp. 1012-1015, September 2011.

  19. Micromachined Silicon probes for cochlear auditory nerve stimulation
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In MicroNano Conference 2011,
    Ede, The Netherlands, NanotextNL, pp. 1-1, November 2011.

  20. Design and simulation of silicon electrodes for cochlear auditory nerve stimulation
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In 6th International Conference on Microtechnologies in Medicine and Biology (MMB 2011),
    Lucerne, Switzerland, MMB, pp. 255-256, May 2011.

  21. Development of Probes for Cochlear Implants
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In Proceedings IEEE Sensors,
    Limerick, Ireland, IEEE, pp. 1827-1830, October 2011.

  22. Study of fabrication strategies for silicon in cochlear implants
    N.S. Lawand; P.J. French; J. Briaire; J.H.M. Frijns;
    In s.n. (Ed.), STW, pp. 28-31, 2009.

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