Effect of tantalum content on the structural properties and sensing performance of YbTaxOy electrolyte-insulator-semiconductor pH sensors

Effect of tantalum content on the structural properties and sensing performance of YbTaxOy electrolyte-insulator-semiconductor pH sensors

In this work, we developed YbTaxOy sensing membranes displaying super-Nernstian pH-sensitivity for use in electrolyte–insulator–semiconductor (EIS) pH sensors. We examined the effect of tantalum content on the structural properties and sensing characteristics of the YbTaxOy sensing membranes deposit...

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Bibliographic Details
Published in:Journal of alloys and compounds 2019-05, Vol.784, p.386-393
Main Authors: Pan, Tung-Ming, Huang, Yu-Shu, Her, Jim-Long, Chiu, Fu-Chien
Format: Article
Language:eng
Subjects:
Atomic force microscopy
Atomic properties
Crystal defects
Detection
Drift rate
Electrolyte-insulator-semiconductor (EIS)
Electrolytes
Ions
Membranes
Organic chemistry
Oxidation
pH sensitivity
Photoelectrons
Plasma power
Secondary ion mass spectrometry
Sensing characteristics
Sensitivity
Sensors
Silicon substrates
Stoichiometry
Surface roughness
Tantalum
Trivalent ions
Valence
X-ray diffraction
YbTaxOy
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Summary:In this work, we developed YbTaxOy sensing membranes displaying super-Nernstian pH-sensitivity for use in electrolyte–insulator–semiconductor (EIS) pH sensors. We examined the effect of tantalum content on the structural properties and sensing characteristics of the YbTaxOy sensing membranes deposited through reactive co-sputtering onto Si substrates. X-ray diffraction, atomic force microscopy, secondary ion mass spectrometry, and X-ray photoelectron spectroscopy revealed the structural, morphological, depth, and chemical features, respectively, of these YbTaxOy films prepared under various Ta plasma power conditions (from 80 to 160 W). Among the tested systems, the YbTaxOy EIS device prepared at the 120 W condition exhibited the super-Nernstian sensitivity (70.24 mV/pH), the lowest hysteresis voltage (1.5 mV), and the lowest drift rate (0.26 mV/h). Presumably, this condition optimized the stoichiometry of YbTaO4 in the film and its surface roughness while reducing the crystal defect and suppressing silicate formation at the YbTaxOy–Si interface. The super-Nernstian pH-sensitivity may be attributed to the incorporation of Ta ions in the Yb2O3 forming a YbTaO4 stoichiometric film, enhancing a change in oxidation state of Yb from trivalent ion to bivalent ion and thus transferring one electron to two protons in the redox reaction. •Structural and sensing properties of YbTaxOy sensing membranes under three Ta plasma powers were investigated.•YbTaxOy sensing membranes were deposited onto Si substrates through reactive co-sputtering.•YbTaxOy EIS device prepared at the 120 W exhibited the best sensing performance.•This condition optimized the stoichiometry of YbTaO4 in the film and its surface roughness.
ISSN:0925-8388
1873-4669