Gas sensing selectivity of hexagonal and monoclinic WO3 to H2S

被引:101
|
作者
Szilagyi, Imre Miklos [1 ]
Saukko, Sami [2 ]
Mizsei, Janos [3 ]
Toth, Attila L. [4 ]
Madarasz, Janos
Pokol, Gyorgy
机构
[1] Budapest Univ Technol & Econ, Dept Inorgan & Analyt Chem, Hungarian Acad Sci, Mat Struct & Modeling Res Grp, H-1111 Budapest, Hungary
[2] Univ Oulu, Microelect & Mat Phys Labs, FIN-90014 Oulu, Finland
[3] Budapest Univ Technol & Econ, Dept Elect Devices, H-1521 Budapest, Hungary
[4] Hungarian Acad Sci, Res Inst Tech Phys & Mat Sci, H-1121 Budapest, Hungary
来源
SOLID STATE SCIENCES | 2010年 / 12卷 / 11期
关键词
Tungsten oxide; Hexagonal; Monoclinic; Gas sensor; Selectivity; H2S; TUNGSTEN TRIOXIDE; STABILITY; HYDROGEN; SENSORS; OXIDE;
D O I
10.1016/j.solidstatesciences.2010.01.019
中图分类号
O61 [无机化学];
学科分类号
070301 ; 081704 ;
摘要
Hexagonal and monoclinic tungsten oxide (h- and m-WO3) samples were produced by annealing hexagonal ammonium tungsten bronze (NH4)(0) (07)(NH3)(0) (04)(H2O)(0) 09WO2 (95) at 470 and at 600 C respectively Their structure composition and morphology were analyzed by XRD Raman XPS H-1-MAS NMR and SEM In order to study the effect of crystal structure on the gas sensitivity of tungsten oxides h- and m-WO3 were tested as gas sensors to CH4 CO H-2 NO and H2S (1000 and 10 ppm) at 200 C Monoclinic WO3 responded to all gases but its gas sensing signal was two magnitudes greater to 10 ppm H2S than to other gases and it also detected H2S even at 25 degrees C Hexagonal WO3 responded only to 10 ppm H2S Its sensitivity was smaller compared to m-WO3 however the response time of h-WO3 was significantly faster The gas sensing tests showed that while m-WO3 had relative selectivity to H2S in the presence CH4 CO H-2 NO h-WO3 had absolute selectivity to H2S in the presence these gases (C) 2010 Elsevier Masson SAS All rights reserved
引用
收藏
页码:1857 / 1860
页数:4
相关论文
共 50 条
  • [1] H2S sensing properties of WO3 based gas sensor
    Urasinska-Wojcik, B.
    Vincent, T. A.
    Gardner, J. W.
    [J]. PROCEEDINGS OF THE 30TH ANNIVERSARY EUROSENSORS CONFERENCE - EUROSENSORS 2016, 2016, 168 : 255 - 258
  • [2] H2S gas sensing characteristics of WO3 thick-films
    Han, SD
    Singh, I
    Kim, HS
    Kim, ST
    Jung, YH
    Kim, BK
    [J]. INDIAN JOURNAL OF CHEMISTRY SECTION A-INORGANIC BIO-INORGANIC PHYSICAL THEORETICAL & ANALYTICAL CHEMISTRY, 2002, 41 (09): : 1832 - 1836
  • [3] H2S gas sensing, properties of CuO-functionalized WO3 nanowires
    Park, Suyoung
    Park, Sunghoon
    Jung, Jihwan
    Hong, Taeseop
    Lee, Sangmin
    Kim, Hyoun Woo
    Lee, Chongmu
    [J]. CERAMICS INTERNATIONAL, 2014, 40 (07) : 11051 - 11056
  • [4] Gas Sensing Performance and Mechanism of CuO(p)-WO3(n) Composites to H2S Gas
    Peng, Fang
    Sun, Yan
    Yu, Weiwei
    Lu, Yue
    Hao, Jiaming
    Cong, Rui
    Shi, Jichao
    Ge, Meiying
    Dai, Ning
    [J]. NANOMATERIALS, 2020, 10 (06) : 1 - 15
  • [5] H2S sensing properties of added copper oxide in WO3
    Nowrouzi, Rasoul
    Astaraei, Fatemeh Razi
    Kashani, Shima
    Zad, Azam Iraji
    [J]. MATERIALS AND APPLICATIONS FOR SENSORS AND TRANSDUCERS II, 2013, 543 : 145 - +
  • [6] The "screening behavior" of lithium: Boosting H2S selectivity of WO3 nanofibers
    Xing, Xiaxia
    Zhu, Zhengyou
    Feng, Dongliang
    Du, Lingling
    Yang, Dachi
    [J]. JOURNAL OF HAZARDOUS MATERIALS, 2021, 416
  • [7] Electrical characterization of H2S adsorption on hexagonal WO3 nanowire at room temperature
    Liu, Binquan
    Tang, Dongsheng
    Zhou, Yong
    Yin, Yanling
    Peng, Yuehua
    Zhou, Weichang
    Qin, Zhu'ai
    Zhang, Yong
    [J]. JOURNAL OF APPLIED PHYSICS, 2014, 116 (16)
  • [8] Facile synthesis of reduced graphene oxide/hexagonal WO3 nanosheets composites with enhanced H2S sensing properties
    Shi, Jinjin
    Cheng, Zhixuan
    Gao, Liping
    Zhang, Yuan
    Xu, Jiaqiang
    Zhao, Hongbin
    [J]. SENSORS AND ACTUATORS B-CHEMICAL, 2016, 230 : 736 - 745
  • [9] Ultraviolet-Induced Gas Sensing Performance of Ag/WO3/rGO Nanocomposites for H2S Gas Sensors
    Gui, Yanghai
    Wu, Jintao
    Tian, Kuan
    Guo, Huishi
    Qin, Xiaoyun
    Qin, Xiaomei
    Guo, Xiang
    Fang, Canxiang
    Liu, Peng
    [J]. ACS APPLIED ELECTRONIC MATERIALS, 2023, 5 (07) : 3625 - 3633
  • [10] STUDY OF THE PHASE-TRANSFORMATION WO3 HEXAGONAL-]WO3 MONOCLINIC
    FIGLARZ, M
    DUMONT, B
    GERAND, B
    BEAUDOIN, B
    [J]. JOURNAL DE MICROSCOPIE ET DE SPECTROSCOPIE ELECTRONIQUES, 1982, 7 (04): : 371 - &
12345