Super-Nernstian pH sensitivity of TbTaO4 sensing film for a solid-state pH sensor

AbstractA solid-state pH sensor was fabricated using a transparent conductive tin oxide film on a glass substrate. The coating of the glass substrate was achieved by a novel simple chemical vapor deposition (CVD) procedure. The response time of the pH sensor was substantially reduced when a thin graphite film was deposited onto the tin oxide conductive film. The sensor slope was found to increase as the temperature of the solution was increased. The performance of the sensor was investigated in the pH range from 0.3 to 11.0. A straight-line calibration graph was achieved throughout the whole range tested, especially when the solution temperature was 80 ℃. The working pH range was found to decrease on the expense of the lower range as the temperature was decreased. Results obtained by the suggested sensor compares very well with conventional pH electrodes where the square of the correlation coefficient was 0.999.

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Quantitative Studies of Long-term Stable, Top-down Fabricated Silicon Nanowire pH Sensor

MRS Proceedings ◽

10.1557/opl.2011.84 ◽

2011 ◽

Vol 1303 ◽

Author(s):

Sun Choi ◽

Albert P. Pisano

Keyword(s):

Silicon Nanowire ◽

Ph Sensor ◽

Sensor Response ◽

Ph Sensitivity ◽

Passivation Layer ◽

Ph Sensors ◽

Top Down ◽

The Stability ◽

Ph Level

ABSTRACTWe report simple and effective methods to develop long-term, stable silicon nanowire-based pH sensors and systematic studies of the performance of the developed sensors. In this work, we fabricate silicon nanowire pH sensors based on top-down fabrication processes such as E-beam lithography and conventional photolithography. In order to improve the stability of the sensor performance, the sensors are coated with a passivation layer (silicon nitride) for effective electrical insulation and ion-blocking. The stability, the pH sensitivity, and the repeatability of the sensor response are critically analyzed with regard to the physics of sensing interface between sample liquid and the sensing surface. The studies verify that the sensor with a passivation layer over critical thickness show long-term, stable sensor response without long-term drift. The studies also show the detection of pH level with silicon nanowire sensors is repeatable only after proper rinsing of sensor surfaces and there exists trade-off between the stability and the pH sensitivity of sensor response.

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All-Solid-State pH Sensor Based on Conducting Polymer

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.93-94.591 ◽

2010 ◽

Vol 93-94 ◽

pp. 591-594 ◽

Cited By ~ 1

Author(s):

W. Natedungta ◽

W. Prissanaroon-Ouajai

Keyword(s):

Solid State ◽

Conducting Polymer ◽

Electrolyte Solution ◽

Ph Sensor ◽

Reference Electrode ◽

Ph Measurement ◽

Metallic Silver ◽

Internal Solution ◽

State Reference ◽

Ph Electrode

A solid-state (free of internal electrolyte solution) reference electrode based on metallic silver is simply fabricated via a simple electrodeposition from AgNO3. Potentiometry is carried out to study the performance of the solid-state reference electrode in comparison with the commercial Ag/AgCl reference electrode. In addition, the proposed solid-state reference electrode has been integrated with the PPy-modified pH electrode to form an all-solid-state pH sensor, showing the capability of pH measurement. Absence of the internal solution leads to the pH sensor that is convenient to use and maintenance. In addition, the proposed pH sensor is possibly applied to biochemical and medical processes as well as flow infection analysis.

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