| Title | Novel TiN-based dry EEG electrodes: Influence of electrode shape and number on contact impedance and signal quality |
| Publication Type | Conference Paper |
| Year of Publication | 2010 |
| Authors | Fiedler, P, Brodkorb, S, Fonseca, C, Vaz, F, Zanow, F, Haueisen, J |
| Conference Name | IFMBE ProceedingsIFMBE Proc. |
| Date Published | 2010/// |
| Conference Location | Chalkidiki |
| ISBN Number | 16800737 (ISSN); 9783642130380 (ISBN) |
| Keywords | Ag/AgCl, Application scenario, Average deviation, Biochemical engineering, Bioelectric phenomena, bioelectric signals, biomedical electrodes, Biosignals, Coated electrodes, Coated wire electrodes, Contact impedance, Contact surface, electrochemical characterization, Electrochemical characterizations, Electrode shape, Electrode-skin impedance, Electrodes, electroencephalography, Electrophysiology, Medical computing, Signal frequencies, Signal quality, Spatial distance, Titanium, Titanium electrodes, Titanium nitride |
| Abstract | Usability of conventional wet electrodes for electroencephalography (EEG) is depending on a set of requirements, including time consuming and complex preparation of the skin of a subject, thus limiting possible application. A new class of "dry" electrodes without the need for electrolyte gels or pastes is being investigated. The dry application scenario of these novel electrodes requires a stable and reliable contact with the subject's skin. In order to develop an electrode shape with large contact surface for low electrode-skin impedance while also ensuring a sufficient hair layer penetration, several studies were performed. In this paper a distinct titanium electrode substrate shape for titanium nitride (TiN) coated electrodes was analyzed regarding influences of the number of interconnected electrodes and contact surface on electrodeskin impedance and biosignal quality. As a result 10 interconnected TiN pins had the lowest impedance values of 14 to 55 kΩ (depending on signal frequency) in comparison to 2 to 44 kΩ using conventional Ag/AgCl electrodes. Also the mean average deviation (MAD) of 5 seconds long EEG episodes were computed. The lowest MADs of 2.00 to 2.25 μV were determined using three interconnected TiN pins. In comparison to MADs of 2.13 to 2.54 μV, using a second set of Ag/AgCl electrodes, this leads to the conclusion that most of the error was related to spatial distance. This first step in optimization of electrode shape for dry TiN based electrodes showed very promising results and enable their use for EEG acquisition. © 2010 International Federation for Medical and Biological Engineering. |
| URL | http://www.scopus.com/inward/record.url?eid=2-s2.0-77957573144&partnerID=40&md5=faee85fb614e1ce7ac4960fb98e1b8e1 |
