A highly sensitive ethanol sensor based on Ag@TiO 2 nanoparticles at room temperature

Applied Surface Science

Volumn 320, Issue , 2014, Pages 348-355

  Zhu, Zhen ^b   Kao, Cheng Tse ^a   Wu, Ren Jang ^a  

^a PROVIDENCE UNIVERSITY   (Taiwan)

^b TIANJIN UNIVERSITY OF TECHNOLOGY   (China)

Author keywords

Ag@TiO 2; Core shell; Ethanol gas; Excellent selectivity; Gas sensor

Indexed keywords

CHEMICAL SENSORS; CORE SHELL NANOPARTICLES; ENERGY DISPERSIVE SPECTROSCOPY; GAS DETECTORS; GASES; HIGH RESOLUTION TRANSMISSION ELECTRON MICROSCOPY; SHELLS (STRUCTURES); TITANIUM DIOXIDE; TRANSMISSION ELECTRON MICROSCOPY; ULTRAVIOLET VISIBLE SPECTROSCOPY; X RAY DIFFRACTION;

AG-TIO2; CORE SHELL; ENERGY DISPERSIVE X RAY SPECTROSCOPY; ETHANOL CONCENTRATIONS; FORMATION MECHANISM; LOW CONCENTRATIONS; SYSTEMATIC STUDY; WORKING TEMPERATURES;

ETHANOL;

EID: 84919397263     PISSN: 01694332     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apsusc.2014.09.108     Document Type: Article

References (38)

1. S.H. Zhen, Y. Wang, C.G. Liu, G.M. Xie, C.S. Zou, J. Zheng, and Y. Zhu A novel microassay for measuring blood alcohol concentration using a disposable biosensor strip Forensic Sci. Int. 207 2011 177 182
2. http://en.wikipedia.org/wiki/Blood-alcohol-content, 2012.
3. S. Roy, N. Banerjee, C.K. Sarkar, and P. Bhattacharyya Development of an ethanol sensor based on CBD grown ZnO nanorods Solid State Electron. 87 2013 43 50
4. A.P. Periasamy, Y. Umasankar, and S.M. Chen Toluidine blue adsorbed on alcohol dehydrogenase modified glassy carbon electrode for voltammetric determination of ethanol Talanta 83 2011 930 936
5. S. Villanueva, A. Vegas, J.A. Fernandez-Escudero, M. Iñiguez, M.L. Rodríguez-Mendez, and J.A. de Saja SPME coupled to an array of MOS sensors. Reduction of the interferences caused by water and ethanol during the analysis of red wines Sens. Actuators B: Chem. 120 2006 278 287
6. M. Hämmerle, K. Hilgert, M.A. Horn, and R. Moos Analysis of volatile alcohols in apple juices by an electrochemical biosensor measuring in the headspace above the liquid Sens. Actuators B: Chem. 158 2011 313 318
7. 2 Sens. Actuators B: Chem. 182 2013 408 415
8. D. King, W.B. Lyons, C. Flanagan, and E. Lewis Utilisation of pattern recognition techniques to interpret complex data from a multipoint optical fibre ethanol concentration sensor system Sens. Actuators A: Phys. 136 2007 144 153
9. R. Wild, D. Citterio, J. Spichiger, and U.E. Spichiger Continuous monitoring of ethanol for bioprocess control by a chemical sensor J. Biotech. 50 1996 37 46
10. 3 catalytic layer Sens. Actuators B: Chem. 142 2009 141 146
11. R. Monošík, P. Magdolen, M. Stredanský, and E. Šturdík Monitoring of monosaccharides, oligosaccharides, ethanol and glycerol during wort fermentation by biosensors, HPLC and spectrophotometry Food Chem. 138 2013 220 226
12. E. Wongrat, P. Pimpang, and S. Choopun Comparative study of ethanol sensor based on gold nanoparticles: ZnO nanostructure and gold: ZnO nanostructure Appl. Surf. Sci. 256 2009 968 971
13. 3 @graphene nanostructures for enhanced gas-sensing property to ethanol Appl. Surf. Sci. 292 2014 278 284
14. 2 /ZnO composite nanofibers by electrospinning method and study of its ethanol sensing properties Appl. Surf. Sci. 257 2011 7988 7992
15. Y.X. Qin, G.G. Fan, K.X. Liu, and M. Hu Vanadium pentoxide hierarchical structure networks for high performance ethanol gas sensor with dual working temperature characteristic Sens. Actuators B: Chem. 190 2014 141 148
16. S.M. Chou, L.G. Teoh, W.H. Lai, Y.H. Su, and M.H. Hon ZnO:Al thin film gas sensor for detection of ethanol vapor Sensors 6 2006 1420 1427
17. 2 porous hollow microspheres Appl. Surf. Sci. 261 2012 890 895
18. 5 nanorods for gas sensors Curr. Appl. Phys. 10 2010 531 537
19. S. Choopun, A. Tubtimtae, T. Santhaveesuk, S. Nilphai, E. Wongrat, and N. Hongsith Zinc oxide nanostructures for applications as ethanol sensors and dye-sensitized solar cells Appl. Surf. Sci. 256 2009 998 1002
20. A. Labidi, A. Bejaoui, H. Ouali, F. Chaffar Akkari, A. Hajjaji, M. Gaidi, M. Kanzari, B. Bessaïs, and M. Maaref Dry air effects on the copper oxides sensitive layers formation for ethanol vapor detection Appl. Surf. Sci. 257 2011 9941 9945
21. R.N. Mariammal, K. Ramachandran, G. Kalaiselvan, S. Arumugam, B. Renganathan, and D. Sastikumar Effect of magnetism on the ethanol sensitivity of undoped and Mn-doped CuO nanoflakes Appl. Surf. Sci. 270 2013 545 552
22. 3 nanofibers with a double-layer structure Appl. Surf. Sci. 258 2012 6643 6647
23. W. Zeng, B. Miao, L.Y. Lin, and J.Y. Xie Facile synthesis of NiO nanowires and their gas sensing performance Trans. Nonfer. Metals Soc. China 22 2012 s100 s104
24. 2 /graphene oxide nanocomposite Talanta 82 2010 1637 1641
25. 3 hollow microspheres: hydrothermal synthesis and their application in ethanol sensors Mater. Lett. 100 2013 102 105
26. 4 nanofibers Sens. Actuators B: Chem. 161 2012 570 577
27. 2 core-shell nanowires Sens. Actuators B: Chem. 148 2010 595 600
28. 2 nanorod J. Phys. Chem. C 114 2010 3968 3972
29. 2 -ZnO core-shell nanowires for enhanced ethanol-sensing performance Curr. Appl. Phys. 13 2013 1637 1642
30. 3 core-shell microspheres and their gas sensing properties Sens. Actuators B: Chem. 155 2011 606 611
31. M.M. Khan, S. Kalathil, J. Lee, and M.H. Cho Synthesis of cysteine capped silver nanoparticles by electrochemically active biofilm and their antibacterial activities Bull. Korean Chem. Soc. 33 2012 2592 2596
32. 3+ nanophosphor: synthesis, characterization and thermoluminescence studies Spectrochim. Acta Part A: Mol. Biomol. Spectrosc. 99 2012 279 287
33. T. Ung, L.M. Liz-Marzan, and P. Mulvaney Controlled method for silica coating of silver colloids. Influence of coating on the rate of chemical reactions Langmuir 14 1998 3740 3748
34. 2 core-shell nanoparticles: one-step synthesis, characterization, spectroscopy, and optical limiting properties Langmuir 19 2003 3439 3445
35. 2 core-shell material for use in fast-response ethanol sensor at room operating temperature Sens. Actuators B: Chem. 178 2013 185 191
36. H. Windischmann, and P. Mark A model for the operation of a thin films tin oxide conductance modulation carbon monoxide sensor J. Electrochem. Soc. 126 1979 627 630
37. 2 -based potentiometric sensors and temperature-programmed reaction evaluation of the sensor elements Sens. Actuators B: Chem. 123 2007 915 921
38. 2 production Nanoscale 5 2013 11283 11290