2015
DOI: 10.1002/ppap.201500063
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Ag:TiN‐Coated Polyurethane for Dry Biopotential Electrodes: From Polymer Plasma Interface Activation to the First EEG Measurements

Abstract: Several plasma treatments using argon, oxygen, and nitrogen are studied in order to increase the interfacial adhesion of the polyurethane/Ag:TiN system to be used as biopotential electrodes. The optimized plasma treatments conditions (100 W, 15 min, regardless of the gas) promote a steep decrease of the water contact angle values. The observed chemical and topographic alterations translate into excellent polyurethane/Ag:TiN interfacial adhesion of the plasma treated samples. The in-service validation of the pr… Show more

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Cited by 30 publications
(36 citation statements)
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References 61 publications
(109 reference statements)
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“…The measured electrode-skin impedances with average values below 150 kX for 94 % of the channels in combination with the stable open circuit potential known to be attributed to silver and silver/silver-chloride electrodes (Fiedler et al 2014;Pedrosa et al 2015b) render the electrodes compatible with commercial amplifiers without the need for active pre-amplification or impedance converters. The impedance differences between hairless (frontal) and hairy (temporal and occipital) positions are negligible.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…The measured electrode-skin impedances with average values below 150 kX for 94 % of the channels in combination with the stable open circuit potential known to be attributed to silver and silver/silver-chloride electrodes (Fiedler et al 2014;Pedrosa et al 2015b) render the electrodes compatible with commercial amplifiers without the need for active pre-amplification or impedance converters. The impedance differences between hairless (frontal) and hairy (temporal and occipital) positions are negligible.…”
Section: Discussionmentioning
confidence: 99%
“…Ag/AgCl is the gold standard material for wet electrodes and has outstanding electrochemical characteristics (Searle and Kirkup 2000;Fiedler et al 2014;Pedrosa et al 2015b). Thus, it has been selected for the electrically conductive coating of the multipin electrodes.…”
Section: Dry Electrodesmentioning
confidence: 99%
“…For the depositions, two different types of substrates were used including Si (Boron doped, p type, <100> orientation, 525 µm thick) for chemical and (micro)structural characterization purposes and SiO 2 (fused silica) for optical spectra measurements. Before the depositions and in order to clean and activate the surface of the substrates, plasma treatments were performed by a Low-Pressure Plasma Cleaner by Diener Electronic equipped with a 40 kHz RF generator (Zepto Model, Ebhausen, Germany) [42], applying a power of 100 W. The substrates were first cleaned with O 2 plasma (80 Pa, for 5 min), and then activated with Ar plasma (80 Pa, for 15 min).…”
Section: Methodsmentioning
confidence: 99%
“…The heating ramp used was 5 • C/min and the isothermal period was 5 h, which cooled down freely inside the furnace, before reaching room temperature. Germany) [42], applying a power of 100 W. The substrates were first cleaned with O2 plasma (80 Pa, for 5 min), and then activated with Ar plasma (80 Pa, for 15 min). The films were deposited by reactive (DC) magnetron sputtering during 60 s in order to produce films with thicknesses around ~50 nm.…”
Section: Methodsmentioning
confidence: 99%
“…Traditionally, wet Ag/AgCl electrodes are considered the gold standard for biopotential measurements. These electrodes are non-polarizable, show a low and almost frequency independent electrode-skin interface impedance, in the order of a few tens of kΩ [9,10]. Nevertheless, these electrodes need an electrolyte gel to ensure a reliable electrode-skin connection in combination with an adhesive patch to fix the electrode position, thereby limiting gel spreading.…”
Section: Introductionmentioning
confidence: 99%