NO_2 Sensing Properties of Porous In_2O_3-based Powders Preapred by Utilizing Ultrasonic-spray Pyrolysis Employing PMMA Microsphere Templates: Effects of the Size of the PMMA Microspheres on their Gas-sensing Properties

机译：No_2感测多孔in_2O_3的粉末采用采用PMMA微球模板的超声波喷雾热解，采用超声波喷雾热解：PMMA微球大小对其气体传感性能的影响

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PMMA microspheres were synthesized in distilled water by ultrasonic-assisted emulsion polymerization. The average particle size of PMMA microspheres was dependent markedly on the kind of surfactant used. Porous (pr-) In_2O_3 powders were prepared by ultrasonic-spray pyrolysis of In(NO_3)_3 aqueous solution containing the PMMA microspheres synthesized. The NO_2 response of pr-In_2O_3 was much larger than that of conventional In_2O_3 powder prepared by the similar technique employing PMMA-free In(NO_3)_3 aqueous solution. The introduction of controlled macroporous structure into the powder of the sensor material was found to be effective for improving NO_2 response properties.

机译：通过超声波辅助乳液聚合在蒸馏水中合成PMMA微球。 PMMA微球的平均粒径明显依赖于所用的表面活性剂。通过含有合成的PMMA微球的（NO_3）_3水溶液的超声波喷雾热解制备多孔（PR-）IN_2O_3粉末。 PR-IN_2O_3的NO_2响应远大于通过使用PMMA（NO_3）_3水溶液的类似技术制备的常规IN_2O_3粉末的响应。发现将受控大孔结构引入传感器材料的粉末，以有效改善NO_2响应性能。

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《Symposium on chemical sensors 10: chemical and biological sensors and analytical systems》|2012年||共6页
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E. Fujii; T. Hyodo; K. Matsuo; Y. Shimizu;
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1. NO_2 sensing properties of macroporous In_2O_3-based powders fabricated by utilizing ultrasonic spray pyrolysis employing polymethylmethacrylate microspheres as a template [J] . Takeo Hyodo, HanakoInoue, Hitomi Motomura, Sensors and Actuators . 2010,第1期

机译：超声喷涂热解聚甲基丙烯酸甲酯微球为模板制备大孔In_2O_3基粉末的NO_2传感性能
2. Microstructural control of porous In_2O_3 powders prepared by ultrasonic-spray pyrolysis employing self-synthesized polymethylmethacrylate microspheres as a template and their NO_2-sensing properties [J] . Takeo Hyodo, Eriko Fujii, Keijiro Ishida, Sensors and Actuators . 2017,第juna期

机译：以自合成聚甲基丙烯酸甲酯微球为模板的超声热解法制备的多孔In_2O_3粉体的微结构控制及其传感特性
3. Porous In_2O_3 powders prepared by ultrasonic-spray pyrolysis as a NO_2-sensing material: Utilization of polymethylmethacrylate microspheres synthesized by ultrasonic-assisted emulsion polymerization as a template [J] . Takeo Hyodo, Shu-ichi Furuno, Eriko Fujii, Sensors and Actuators . 2013,第octa期

机译：超声喷涂热解法制备的多孔In_2O_3粉体作为NO_2传感材料：以超声辅助乳液聚合合成的聚甲基丙烯酸甲酯微球为模板
4. NO_2 Sensing Properties of Porous In_2O_3-based Powders Preapred by Utilizing Ultrasonic-spray Pyrolysis Employing PMMA Microsphere Templates: Effects of the Size of the PMMA Microspheres on their Gas-sensing Properties [C] . E. Fujii, T. Hyodo, K. Matsuo, Chemical Sensors 10 and MEMS/NEMS 10 . 2012

机译：通过使用PMMA微球模板的超声喷雾热解法制备的多孔In_2O_3基粉末的NO_2传感特性：PMMA微球尺寸对其气敏特性的影响
5. Synthesis and Study of the Optical Properties of PMMA Microspheres and Opals [O] . Mayra Matamoros-Ambrocio, Enrique Sánchez-Mora, Estela Gómez-Barojas, 2021

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6. NO2 Sensing Properties of Porous In2O3-Based Powders Prepared by Utilizing Ultrasonic-Spray Pyrolysis Employing PMMA Microsphere Templates: Effects of the Size of the PMMA Microspheres on Their Gas-Sensing Properties [O] . Fujii Eriko, Hyodo Takeo, Matsuo Katsuhide, 2012

机译：使用pmma微球利用超声波喷雾热解制备的多孔In2O3基粉末的NO2传感特性：pmma微球尺寸对其气敏特性的影响
7. Investigation of the Effects of Particle Size on the Mechanical Properties of Porous and Tin Infiltrated Niobium Rods Fabricated by a Thermoplastic-Powder Metallurgy Technique [R] . Noman, A. 1978

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NO_2 Sensing Properties of Porous In_2O_3-based Powders Preapred by Utilizing Ultrasonic-spray Pyrolysis Employing PMMA Microsphere Templates: Effects of the Size of the PMMA Microspheres on their Gas-sensing Properties

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