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NO 2 Adv MaterChem Soc RevJ Am Chem SocEnergy & Environmental ScienceAdv Funct MaterNano LettElectrochemistry Communications 8 854 384 2018 2
8 Adv MaterChem Soc RevAdv Funct MaterSensors 39 2018 3
1. Pt/W x O y NO 2 Pt/W 18 O 49 1-4 549 384 Advanced MaterialsChemical Society ReviewsCritical Reviews in Solid State and Materials 20 2. / 1000 300K 750K 5-8 305 161 Small 4
3. 20 SCI 1210 817 8 SCI 854 548 384 219 39 5 1 2 2 973/3 5
1. 1210 8 854 384 39 Adv MaterChem Soc RevJ Am Chem SocEnergy & Environmental ScienceAdv Funct MaterNano LettElectrochemistry Communications 170 SCI 20 150 2. 1 11 Jörg J. Schneider Chem Soc Rev (2012, 41, 5285 5312)1 highlights the suitability of such nanowire based sensors for practical applicationsshouheng SunNano Lett (2017,17, 2727-2731)1 2 2 Pt UCL C Blackman Adv Funct Mater (2013, 23, 1313 1322) 2 Pt H 2 3 University of Exeter Yanqiu Zhu Prog in Mater Sci (2017, 88, 281-324) 3 18 6
4 C A Grimes Nano Lett (2011, 11, 203 208) 4 Ayato Kawashima Nanotech (2007, 18, 495603) 2 1 5 Jaroslaw Domaradzki Sensors and Actuators B: Chemical (2014, 201,420 425) (Most known examples) RMIT Kourosh Kalantar-zadeh Adv Funct Mater (2011, 21, 2175 2196) 5 (The two most reported effects) Ben-Gurion University of the Negev T Mokari 6 WO 3 3 7 IMRE Hai-Dong Yu Small (2012, 8, No. 17, 2621 2635) 7 Adolfo O Fumega J Phys: Condens Matter (2017, 29, 065501) 7 4 M Terrones R T Lv Adv Mater (2017, 29, 1603617) 8 HER CrystEngComm (2015,17, 3551-3585) 8 Fig 3 7
3 1 RMIT Kourosh Kalantar-zadeh Adv Funct Mater (2011, 21, 2175 2196) 6 6 2C C ChanSensors and Actuators B: Chemical (2011, 157, 504-509)5WO 3 3Lin Wang(Nanoscale, 2015, 7, 7585 ACS Appl Mater Interfaces2015, 7, 526 533)7 8
[1] Andrea Ponzoni*, ElisabettaComini, and Giorgio Sberveglieri; Jun Zhou, Shao Zhi Deng, and NingSheng Xu*; Yong Ding and Zhong Lin Wang*, Ultrasensitive and Highly Selective Gas Sensors Using Three-dimensional Tungsten Oxide Nanowire Networks, Applied Physics Letters, 88 (20): Art. No. 203101, MAY 15 2006. [2] LianFeng Zhu, Jun Cong She, Jian Yi Luo, Shao Zhi Deng,* Jun Chen, and Ning Sheng Xu*, Study of Physical and Chemical Processes of H-2 Sensing of Pt-Coated WO 3 Nanowire Films, Journal of Physical Chemistry C, 114 (36), p15504-15509, Sep 16 2010. [3] LianFeng Zhu, Jun Cong She, Jian Yi Luo, Shao Zhi Deng, Jun Chen, Xue Wen Ji, Ning Sheng Xu*, Self-Heated Hydrogen Gas Sensors Based on Pt-Coated W 18 O 49 Nanowire Networks with High Sensitivity, Good Selectivity and Low Power Consumption, Sensors and Actuators B-Chemical, 153 (2), p354-360, Apr 20 2011. [4] Lingfei Chi, NingshengXu, Shaozhi Deng*, JunChen and Juncong She, An Approach for Synthesizing Various Types of Tungsten Oxide Nanostructure. Nanotechnology, 17, p5590-5595, 2006. [5] Huanjun Chen, Ningsheng Xu1, Shaozhi Deng*, Dongyu Lu, Zhenglin Li, Jun Zhou and Jun Chen, Gasochromic Effect and Relative Mechanism of WO 3 Nanowire Films, Nanotechnology, 18 (20), Art. No. 205701, MAY 23 2007. [6] Huanjun Chen, NingshengXu*, Shaozhi Deng*, Jun Zhou, Zhenglin Li, HaoRen, Jun Chen, and Juncong She, Electrochromic Properties of WO 3 Nanowire Films and Mechanism Responsible for the Near Infrared Absorption, Journal of Applied Physics, 101(11): Art. No. 114303, JUN 1 2007. [7] Jun Chen, S Z Deng, N S Xu*, Weixin Zhang, Xiaogang Wen, and Shihe Yang*, Temperature Dependence of Field Emission from Cupric Oxide Nanobelt Films, Applied Physics Letters, 83 (4), p746-748, July 2003. [8] Fei Liu, Li Li, Fuyao Mo, Jun Chen, Shaozhi Deng,* and NingshengXu*, A Catalyzed-Growth Route to Directly Form Micropatterned WO 2 and WO 3 Nanowire Arrays with Excellent Field Emission Behaviors at Low Temperature, Crystal Growth & Design, 10 (12), p5193-5199, Dec 2010. 9
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