Lanthanum gallate based amperometric electrochemical sensor for detecting ammonia in ppm level: Optimization of electrode compositions
暂无分享,去创建一个
A. K. Tyagi | Atanu Dutta | M. Roy | A. Dutta | R. Sharan | Mainak Roy | R. Sharan
[1] M A Arnold,et al. Simplex optimization of a fiber-optic ammonia sensor based on multiple indicators. , 1988, Analytical chemistry.
[2] Yuhan Sun,et al. Surface reactivity and bulk properties of ZrO2. Part 2.—Importance of homogeneity in the stabilisation of high surface area CeO2–ZrO2 aerogels , 1996 .
[3] Norio Miura,et al. Potentiometric NOx sensor based on stabilized zirconia and NiCr2O4 sensing electrode operating at high temperatures , 2001 .
[4] A. K. Tyagi,et al. Ultrafine ceria powders via glycine-nitrate combustion , 2001 .
[5] Ralf Moos,et al. Selective ammonia exhaust gas sensor for automotive applications , 2002 .
[6] Ralf Moos,et al. Development and working principle of an ammonia gas sensor based on a refined model for solvate supported proton transport in zeolites , 2003 .
[7] P. Dutta,et al. Correlation of sensing behavior of mixed potential sensors with chemical and electrochemical properties of electrodes , 2004 .
[8] E. Traversa,et al. Sol–gel synthesis and characterization of Co-doped LSGM perovskites , 2005 .
[9] T. Ishihara,et al. Sensitive Amperometric NO Sensor Using LaGaO3-Based Oxide Ion Conducting Electrolyte , 2005 .
[10] T. Ishihara,et al. Amperometric hydrocarbon sensor using La(Sr)Ga(Fe)O3 solid electrolyte for monitoring in exhaust gas , 2005 .
[11] Tiexiang Fu. Determination of ammonia in air using a novel ammonia sensor based on a nickel(II) macrocyclic complex , 2008 .
[12] F. Poncin‐Epaillard,et al. Development of an optical ammonia sensor based on polyaniline/epoxy resin (SU-8) composite. , 2009, Talanta.
[13] Maximilian Fleischer,et al. Selective Mixed Potential Ammonia Exhaust Gas Sensor , 2009 .
[14] Nguyen Van Hieu,et al. Thin film polypyrrole/SWCNTs nanocomposites- based NH3 sensor operated at room temperature , 2009 .
[15] R. Zuo,et al. Synthesis and characterization of La0.85Sr0.15Ga0.80Mg0.20O2.825 by glycine combustion method and EDTA combustion method , 2010 .
[16] Shinji Tamura,et al. Solid electrolyte type ammonia gas sensor based on trivalent aluminum ion conducting solids , 2010 .
[17] G. Lu,et al. New type of ammonia/toluene sensor combining NASICON with a couple of oxide electrodes , 2010 .
[18] Zhichun Si,et al. Modifications of CeO2–ZrO2 solid solutions by nickel and sulfate as catalysts for NO reduction with ammonia in excess O2 , 2010 .
[19] Maximilian Fleischer,et al. Investigation of the electrode effects in mixed potential type ammonia exhaust gas sensors , 2011 .
[20] Jun Lin,et al. Visible-light induced oxo-bridged Zr(IV)-O-Ce(III) redox centre in tetragonal ZrO2-CeO2 solid solution for degradation of organic pollutants. , 2011, Physical chemistry chemical physics : PCCP.
[21] J. Wöllenstein,et al. Low-cost fiber-optic waveguide sensor for the colorimetric detection of ammonia , 2012 .
[22] Xishuang Liang,et al. Ammonia sensors based on stabilized zirconia and CoWO4 sensing electrode , 2012 .
[23] D. Jiang,et al. Sensing behavior of mixed potential NO2 sensors equipped with LaMO3 (M = Fe or Cr) sensing electrodes , 2015, Ionics.
[24] Z. Yaakob,et al. Catalytic Aspects of Ceria Zirconia Solid Solution: Part‐II an Overview on Recent Developments in the Heterogeneous Catalytic Applications of Metal Loaded Ceria‐zirconia Solid Solution , 2014 .
[25] Dong-weon Lee,et al. A selective NH3 gas sensor based on mesoporous p-type NiV2O6 semiconducting nanorods synthesized using solution method , 2014 .
[26] Masami Mori,et al. Detection of offensive odorant in air with a planar-type potentiometric gas sensor based on YSZ with Au and Pt electrodes , 2014 .
[27] C. Teichert,et al. Long-term stability of the IT-SOFC cathode materials La0.6Sr0.4CoO3 − δ and La2NiO4 + δ against combined chromium and silicon poisoning , 2015 .
[28] Zhichun Si,et al. Selective catalytic reduction of NOx by ammonia over phosphate-containing Ce0.75Zr0.25O2 solids , 2015 .
[29] Yuehuan Li,et al. A novel mixed potential NH3 sensor based on TiO2@WO3 core–shell composite sensing electrode , 2016 .
[30] B. Wang,et al. The effects of Cu-content on Mg2CuxFe1O3.5+x electrodes for YSZ-based mixed-potential type NH3 sensors , 2016 .
[31] O. Ntwaeaborwa,et al. Highly selective NH3 gas sensor based on Au loaded ZnO nanostructures prepared using microwave-assisted method. , 2016, Journal of colloid and interface science.
[32] Yuehuan Li,et al. Ammonia sensing characteristics of La10Si5MgO26-based amperometric-type sensor attached with nano-structured CoWO4 sensing electrode , 2016 .
[33] Bing Wang,et al. Effects of sintering temperature on the NH3 sensing properties of Mg2Cu0.25Fe1O3.75 electrode for YSZ-based potentiometric NH3 sensor , 2016 .
[34] Yifei Luo,et al. Effect of A site deficiency of LSM cathode on the electrochemical performance of SOFCs with stabilized zirconia electrolyte , 2017 .
[35] B. Wang,et al. Effects of sintering temperature on sensing properties of V2O5-WO3-TiO2 electrode for potentiometric ammonia sensor , 2017 .
[36] Yuehuan Li,et al. Mixed-potential type NH3 sensor based on TiO2 sensing electrode with a phase transformation effect , 2017 .
[37] G. Lu,et al. Fabrication of well-ordered porous array mounted with gold nanoparticles and enhanced sensing properties for mixed potential-type zirconia-based NH3 sensor , 2017 .
[38] A. Dutta,et al. Structural analysis of Zr4+ doped ceria, a possible material for ammonia detection in ppm level , 2017 .