Zheng Xing scite author profile

A rapid and sensitive cataluminescence-based gas sensor utilizing nanosized Y2MnO5as the sensing materials for determining dimethyl ether in air was proposed. The luminescence characteristics and the optimal conditions were investigated in detail. The gas sensor showed high selectivity for dimethyl ether at 620 nm and satisfying activity at 210°C under the optimized conditions. The linear range of cataluminescence intensity versus concentration of dimethyl ether was 5~120 mg/m3, and the detection limit (3σ) was 3 mg/m3. No or weak interference was observed while the foreign substances, such as formaldehyde, ammonia, ethanol, benzene, carbon monoxide and sulfur dioxide, were passing through the sensor under selected conditions. The gas sensor displayed good stability for continuously introducing dimethyl ether over 100 h, and allowed real-time monitoring of dimethyl ether in air.

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A Sensitive Formaldehyde Sensor Based on Cataluminescence Coupled with Thermal Desorption

Yang

Xing

Zhou

2014

AMM

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A sensitive cataluminescence-based detecting technology using nanosized Mo4V6Ti10O47 as a probe was proposed for determination of formaldehyde in air. Trace formaldehyde was firstly absorbed on active carbon at room temperature to concentrate, then desorbed at 75°C to determine. The method showed high selectivity to formaldehyde at wavelength of 575nm, satisfying activity at temperature of 260°C and good stability at carrier flow rate of 145 ml/min. The linear range of CTL intensity versus concentration of formaldehyde was 0.04~78 mg/m3, and the detection limit (3σ) was 0.02 mg/m3. The recovery of artificial sample was 96.8%-103.4% by this method. There was no response to CO, CO2, SO2, NH3, methanol, ethanol, benzene, toluene and xylenes.

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Preparation of Micrometer Core-shell Composite Particles via Dispersion Polymerization

Xing

2012

Chinese J Appl Chem

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Zheng Xing

Preparation of micrometer-sized α-Al2O3 platelets by thermal decomposition of AACH

Solvothermal synthesis of LiFePO4/C nanopolyhedrons and microellipsoids and their performance in lithium-ion batteries

Determination of Dimethyl Ether in Air by Cataluminescence-Based Gas Sensor

A Sensitive Formaldehyde Sensor Based on Cataluminescence Coupled with Thermal Desorption

Preparation of Micrometer Core-shell Composite Particles via Dispersion Polymerization

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