Nanocasting Synthesis of Ultrafine WO3 Nanoparticles for Gas Sensing Applications

机译：气敏应用中超细WO3纳米粒子的纳米铸造合成

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Ultrafine WO3 nanoparticles were synthesized by nanocasting route, using mesoporous SiO2 as a template. BET measurements showed a specific surface area of 700 m ²/gr for synthesized SiO2, while after impregnation and template removal, this area was reduced to 43 m ²/gr for WO3 nanoparticles. HRTEM results showed single crystalline nanoparticles with average particle size of about 5 nm possessing a monoclinic structure, which is the favorite crystal structure for gas sensing applications. Gas sensor was fabricated by deposition of WO3 nanoparticles between electrodes via low frequency AC electrophoretic deposition. Gas sensing measurements showed that this material has a high sensitivity to very low concentrations of NO2 at 250°C and 300°C.

机译：以介孔SiO2为模板，通过纳米浇铸法合成了超细WO3纳米粒子。 BET测量显示合成的SiO2的比表面积为700 m ^{2 / gr，而在浸渍和去除模板后，WO3的表面积减小到43 m ^{2 / gr。纳米粒子。 HRTEM结果表明，平均粒径约为5 nm的单晶纳米颗粒具有单斜晶结构，这是气体传感应用中最喜欢的晶体结构。气体传感器是通过低频AC电泳沉积在电极之间沉积WO3纳米颗粒而制成的。气敏测量表明，这种材料在250°C和300°C下对极低浓度的NO2具有高灵敏度。}}

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期刊名称 Nanoscale Research Letters
作者
Elham Kamali Heidari; Ehsan Marzbanrad; Cyrus Zamani; Babak Raissi;
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作者单位

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年(卷),期 2010(5),2
年度 2010
页码 370–373
总页数 4
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
WO3 Nanocasting Low frequency AC electrophoretic deposition NO2 gas sensor;

机译：WO3;纳米铸造;低频AC电泳沉积;NO2气体传感器;

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1. Synthesis of polyethylene glycol (PEG) assisted tungsten oxide (WO3) nanoparticles for l-dopa bio-sensing applications [J] . V. Hariharan, S. Radhakrishnan, M. Parthibavarman, Talanta: The International Journal of Pure and Applied Analytical Chemistry . 2011,第4期

机译：用于左旋多巴生物传感应用的聚乙二醇（PEG）辅助氧化钨（WO3）纳米粒子的合成
2. Complexing surfactants-mediated hydrothermal synthesis of WO3 microspheres for gas sensing applications [J] . Shen Yanbai, Chen Xiangxiang, Wang Wei, Materials Letters . 2016,第JANa15期

机译：络合表面活性剂介导的WO3微球的水热合成，用于气体传感应用
3. Synthesis, Characterization, and Gas Sensing Applications of WO3 Nanobricks [J] . Xiao Jingkun, Song Chengwen, Dong Wei, Journal of Materials Engineering and Performance . 2015,第8期

机译：WO3纳米砖的合成，表征和气敏应用
4. Synthesis of the nanostructured WO3 via anodization at elevated temperature for H2 sensing applications [C] . J.Z. Ou, M.Z. Ahmad, K. Latham Anniversary Eurosensors Conference . 2013

机译：H2检测应用升高温度下阳极氧化的纳米结构WO3的合成
5. Hybrid organic/inorganic silicon-based sol-gel materials: A modification for scale-up conversion in anti-corrosion applications, and, A modification for in-situ synthesis of cadmium sulfide nanoparticles in optical applications. [D] . Tran, Tuan Thanh. 2011

机译：杂化有机/无机硅基溶胶-凝胶材料：在防腐蚀应用中用于按比例放大转化的改进方案，以及在光学应用中用于原位合成硫化镉纳米颗粒的改进方案。
6. Characterization of Mixed xWO3(1-x)Y2O3 Nanoparticle Thick Film for Gas Sensing Application [O] . M. H. Shahrokh Abadi, M. N. Hamidon, Abdul Halim Shaari, 2010

机译：混合xWO3（1-x）Y2O3纳米厚膜在气敏应用中的表征
7. Nanocasting Synthesis of Ultrafine WO3 Nanoparticles for Gas Sensing Applications [O] . Elham Kamali Heidari, Ehsan Marzbanrad, Cyrus Zamani, 2009

机译：气敏应用中超细WO3纳米粒子的纳米铸造合成

Nanocasting Synthesis of Ultrafine WO3 Nanoparticles for Gas Sensing Applications

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