Fuxiu Yang scite author profile

In the past, the working conditions of cataluminescence (CTL) method were simply determined by single factor experiment. This paper will illustrate the optimization of working conditions of a novel sulfur dioxide gas sensor based on Au/CoO-2La 2 WO 6 nanoparticles by response surface methodology (RSM). Under optimized working conditions, analytical wavelength 522.77 nm, reaction temperature 111.15°C and carrier gas velocity 144.92 ml/min, the sensitivity of the method can be increased by 6.4 %. The optimization process is universal for many multi parameter processes. There is a good linear relationship between the CTL intensity and the concentration of sulfur dioxide in the range of 0.06-120 mg/m 3 with a detection limit (3σ) of 0.015 mg/m 3. The sensing properties of sensitive material were investigated. The results indicated that nano-Au/CoO-2La 2 WO 6 could be a good candidate for fabricating sulfur dioxide gas sensors.

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Determination of formaldehyde using a novel Pt-doped nano-sized sensitive material: Operating conditions optimization by response surface method

Yang

Zhang

Wang

et al. 2020

Analytica Chimica Acta

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Sensitive Carbon Monoxide Gas Sensor Based on Chemiluminescence on Nano-Au/Nd₂O₃–Ca₃Nd₂O₆: Working Condition Optimization by Response Surface Methodology

Zhang

Yang

et al. 2020

ACS Omega

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An Au/Nd 2 O 3 –Ca 3 Nd 2 O 6 composite was synthesized by the sol–gel and impregnation method. The EDS spectrum and the transmission electron microscopy image showed that Au atoms are uniformly distributed on the surface of Nd 2 O 3 –Ca 3 Nd 2 O 6 with a size of less than 50 nm. A sensitive carbon monoxide gas sensor based on chemiluminescence at a temperature lower than 200 °C was reported. There is a good linear relationship between the chemiluminescence intensity and the concentration of carbon monoxide in the range of 0.6–125 mg/m 3 . The detection limit (3σ) is 0.2 mg/m 3 . The working conditions optimized by the response surface methodology were an analytical wavelength of 620.90 nm, a reaction temperature of 131.63 °C, and a carrier-gas velocity of 105.46 mL/min. The sensitivity of the method can be increased by 4.5% under the optimized working conditions, which is especially important for the determination of trace substances. The carbon monoxide sensor demonstrated in this paper can be used for practical applications. The optimization method is universal for many multiparameter processes.

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High-performance hydrogen sulfide gas sensor based on Pd/Fe2O3–Zr4MnO10: working conditions optimization by response surface methodology

et al. 2020

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Fuxiu Yang

Pt-activated Ce4La6O17 nanocomposites for formaldehyde and carbon monoxide sensor at low operating temperature

Optimization of Working Conditions by Response Surface Methodology of Sulfur Dioxide Gas Sensors Based on Au/CoO‐2La₂WO₆ Nanoparticles

Determination of formaldehyde using a novel Pt-doped nano-sized sensitive material: Operating conditions optimization by response surface method

Sensitive Carbon Monoxide Gas Sensor Based on Chemiluminescence on Nano-Au/Nd₂O₃–Ca₃Nd₂O₆: Working Condition Optimization by Response Surface Methodology

High-performance hydrogen sulfide gas sensor based on Pd/Fe2O3–Zr4MnO10: working conditions optimization by response surface methodology

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Fuxiu Yang

Pt-activated Ce4La6O17 nanocomposites for formaldehyde and carbon monoxide sensor at low operating temperature

Optimization of Working Conditions by Response Surface Methodology of Sulfur Dioxide Gas Sensors Based on Au/CoO‐2La2WO6 Nanoparticles

Determination of formaldehyde using a novel Pt-doped nano-sized sensitive material: Operating conditions optimization by response surface method

Sensitive Carbon Monoxide Gas Sensor Based on Chemiluminescence on Nano-Au/Nd2O3–Ca3Nd2O6: Working Condition Optimization by Response Surface Methodology

High-performance hydrogen sulfide gas sensor based on Pd/Fe2O3–Zr4MnO10: working conditions optimization by response surface methodology

Contact Info

Product

Resources

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Optimization of Working Conditions by Response Surface Methodology of Sulfur Dioxide Gas Sensors Based on Au/CoO‐2La₂WO₆ Nanoparticles

Sensitive Carbon Monoxide Gas Sensor Based on Chemiluminescence on Nano-Au/Nd₂O₃–Ca₃Nd₂O₆: Working Condition Optimization by Response Surface Methodology