Development of trichloroethylene gaseous sensor utilizing ZnO–Y2O3 as nanocatalyst based on thermal desorption/cataluminescence

Zejie Xue; Shaofang Li; Shunxing Li; Zhiming Rao

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Development of trichloroethylene gaseous sensor utilizing ZnO–Y2O3 as nanocatalyst based on thermal desorption/cataluminescence

机译：利用ZnO-Y2O3作为纳米催化剂的三氯乙烯气态传感器的研制基于热解吸/催化剂

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A highly sensitive and selective thermal desorption/cataluminescence (TD/CTL) sensor was developed for the determination of trichloroethylene (TCE) gas for the first time based on catalytic chemiluminescence (CTL) of TCE on ZnO–Y2O3 (mass ratio, 2?:?1) nanocomposites. The CL intensity was linear to the concentration of TCE gas in the range from 14.7 to 586.0 mg m?3 (r = 0.9958, n = 9) with a detection limit of 4.9 mg m?3 (the signal-to-noise ratio was 3) when the sensor was performed at the optimal temperature of 210 °C and wavelength of 440 nm. The sensor features the advantages of simple construction, rapid analysis, long life-time and high selectivity for TCE gas detection, and it has been applied to the online analysis of TCE gas...

机译：在ZnO-Y 2 O 3上基于TCE的催化化学发光（CTL）的催化化学发光（CTL），开发了高敏感和选择性的热解吸/催化剂（TD / CTL）传感器的催化化学发光（M质量比例，2 ?: ？1）纳米复合材料。 Cl强度是线性的，在TCE气体的浓度为14.7至586.0mgm≤3（r = 0.9958，n = 9），检测限为4.9mgm≤3（信噪比是 3）当传感器在210℃的最佳温度和440nm的波长下进行时。该传感器具有结构简单，分析快，寿命长，针对TCE气体检测的高选择性的优点，并应用于TCE Gas的在线分析......

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《Analytical methods》 |2012年第9期|共6页
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Zejie Xue; Shaofang Li; Shunxing Li; Zhiming Rao;
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1. Development of trichloroethylene gaseous sensor utilizing ZnO-Y2O3 as nanocatalyst based on thermal desorption/cataluminescence [J] . Jianzhong Zheng, Zejie Xue, Shaofang Li Analytical methods . 2012,第9期

机译：基于热解吸/催化发光的ZnO-Y2O3纳米催化剂制备三氯乙烯气体传感器
2. A cataluminescence sensor for the detection of trichloroethylene based on PEG200/ZnO nanocomposite [J] . Xinli Cai, Fei Liu, Fakang Pan, E3S Web of Conferences . 2020,第10期

机译：基于PEG200 / ZnO纳米复合材料检测三氯乙烯的催化传感器
3. A novel and sensitive formaldehyde gas sensor utilizing thermal desorption coupled with cataluminescence [J] . Shaofang Li, Fengping Li, Zhiming Rao Sensors and Actuators . 2010,第1期

机译：利用热脱附和催化发光的新颖灵敏的甲醛气体传感器
4. A Rapid and Sensitive Ether Sensor Utilizing Thermal Desorption Coupled with Cataluminescence [C] . Zhigang Cui, Shaotong Zhang, Jin Zhao, International conference on biotechnology, chemical and materials engineering . 2013

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5. Utilization of Carbon Derived from Thermal Conversion of Renewable Resources for Development of Nanocatalyst [D] . Li, Rui. 2016

机译：利用可再生资源热转化产生的碳开发纳米催化剂
6. Hydrogen Generation Using a CuO/ZnO-ZrO2 Nanocatalyst for Autothermal Reforming of Methanol in a Microchannel Reactor [O] . Kuen-Song Lin, Cheng-Yu Pan, Sujan Chowdhury, 2011

机译：使用CuO / ZnO-ZrO2纳米催化剂在微通道反应器中自动热重整甲醇制氢
7. A cataluminescence sensor for the detection of trichloroethylene based on PEG200/ZnO nanocomposite [O] . Xinli Cai, Fei Liu, Fakang Pan, 2020

机译：基于PEG200 / ZnO纳米复合材料检测三氯乙烯的催化传感器

Development of trichloroethylene gaseous sensor utilizing ZnO–Y2O3 as nanocatalyst based on thermal desorption/cataluminescence

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