A novel dissolved oxygen sensor based on MISFET structure with Pt–LaF3 mixture film

Na, Xingbo; Niu, Wencheng; Li, Huawei; Xie, Jianxiang

doi:10.1016/s0925-4005(02)00238-1

Cited by 15 publications

(7 citation statements)

References 5 publications

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“…For this purpose, superfine sensing material powders of NiO and Pt (purity, 99.99%; average particle diameter; 100 nm; from Kunming Institute of Precious Metals, China) were mixed in a molar ratio of 1:1. This mixture was then grinded completely based on the carbon paste film-forming method [32,33]. The sensing material was finally made by mixing the ground powder together with medical paraffin wax as adhesive (for the particle to wax ratio see the Supporting Information).…”

Section: Sensor Structure and Fabrication Of Sensing Materialsmentioning

confidence: 99%

Detection of CO2 in solution with a Pt–NiO solid-state sensor

Yue

Niu

Zhang

et al. 2010

Journal of Colloid and Interface Science

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Section: Sensor Structure and Fabrication Of Sensing Materialsmentioning

confidence: 99%

Detection of CO2 in solution with a Pt–NiO solid-state sensor

Yue

Niu

Zhang

et al. 2010

Journal of Colloid and Interface Science

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“…[1] Growing of superionic materials by molecular beam epitaxy (MBE) allows creation of composite materials with defined thicknesses and physical properties; this is useful not only for decreasing power consumption of devices,[2] but also for cardinally varying physical properties of materials. Based on this growth technique, fluoride sensors,[3] oxygen sensors,[4] batteries,[5] and transistors [6] have been proposed. In addition, these growth studies offer a good possibility to study the nature of fast ionic transport, the influence of size effects on conductivity, and surface interactions in nanoparticles or films.…”

Section: Introductionmentioning

confidence: 99%

Longitudinal conductivity of LaF₃/SrF₂multilayer heterostructures

Vergentev

Banshchikov

Filimonov

et al. 2016

Science and Technology of Advanced Materials

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LaF3/SrF2 multilayer heterostructures with thicknesses of individual layers in the range 5–100 nm have been grown on MgO(100) substrates using molecular beam epitaxy. The longitudinal conductivity of the films has been measured using impedance spectroscopy in the frequency range 10−1–106 Hz and a temperature range 300–570 K. The ionic DC conductivities have been determined from Nyquist impedance diagrams and activation energies from the Arrhenius–Frenkel equation. An increase of the DC conductivity has been observed to accompany decreased layer thickness for various thicknesses as small as 25 nm. The greatest conductivity has been shown for a multilayer heterostructure having thicknesses of 25 nm per layer. The structure has a conductivity two orders of magnitude greater than pure LaF3 bulk material. The increasing conductivity can be understood as a redistribution of charge carriers through the interface due to differing chemical potentials of the materials, by strong lattice-constant mismatch, and/or by formation of a solid La1-xSrxF3-x solution at the interface during the growth process.

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“…Detecting dissolved oxygen (DO) concentration is of great importance in chemical, biochemical, environmental, industrial and medical applications 1. The conventional method for DO detection is iodine titration 2. However, this method is not of practical application, as it involves several chemical reactions, being quite time‐consuming (and chemicals‐consuming as well), and cannot be used for in situ real‐time measurements 2.…”

Section: Introductionmentioning

confidence: 99%

“…The conventional method for DO detection is iodine titration 2. However, this method is not of practical application, as it involves several chemical reactions, being quite time‐consuming (and chemicals‐consuming as well), and cannot be used for in situ real‐time measurements 2. Consequently, great effort has been devoted to the development of alternative DO sensors 3–8 that are accurate and with fast response.…”

Section: Introductionmentioning

confidence: 99%

Improved Potentiometric and Optic Sensitivity of Polyaniline Film to Dissolved Oxygen by Incorporating Iron‐Porphyrin

Ornelas

Liu

et al. 2015

Electroanalysis

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Polyaniline (PAn) films can be used in an electrochemical and optical combination system to amplify the optical signal for dissolved oxygen (DO) detection. To further improve the sensitivity of PAn film to DO, an oxygen‐sensitive molecule, Fe(III) meso‐tetera (4‐sulfonatophenyl) porphyrin (FeTSPP) is incorporated into PAn during the film generation. Results show that, after incorporating FeTSPP into the PAn matrix, both optical and potentiometric responses to DO are improved. The optimal optical signal is obtained under the application of −2.5 μA to the modified electrode. Under this applied current, both optical and potentiometric signals show linear relations with the DO concentration within the range of 0.00–4.63 mg L−1, and the sensitivities for optical and potentiometric signals are 4.18 grayscale units mg−1 L and 13.39 mV mg−1 L, respectively.

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A novel dissolved oxygen sensor based on MISFET structure with Pt–LaF3 mixture film

Cited by 15 publications

References 5 publications

Detection of CO2 in solution with a Pt–NiO solid-state sensor

Detection of CO2 in solution with a Pt–NiO solid-state sensor

Longitudinal conductivity of LaF₃/SrF₂multilayer heterostructures

Improved Potentiometric and Optic Sensitivity of Polyaniline Film to Dissolved Oxygen by Incorporating Iron‐Porphyrin

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A novel dissolved oxygen sensor based on MISFET structure with Pt–LaF3 mixture film

Cited by 15 publications

References 5 publications

Detection of CO2 in solution with a Pt–NiO solid-state sensor

Detection of CO2 in solution with a Pt–NiO solid-state sensor

Longitudinal conductivity of LaF3/SrF2multilayer heterostructures

Improved Potentiometric and Optic Sensitivity of Polyaniline Film to Dissolved Oxygen by Incorporating Iron‐Porphyrin

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Product

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Longitudinal conductivity of LaF₃/SrF₂multilayer heterostructures