An efficient BTX sensor based on ZnO nanoflowers grown by CBD method

Solid-State Electronics

Volumn 106, Issue , 2015, Pages 18-26

  Acharyya, D ^a   Bhattacharyya, P ^a  

^a INDIAN INSTITUTE OF ENGINEERING SCIENCE AND TECHNOLOGY   (India)

Author keywords

Benzene; Chemical bath deposition; High sensitivity; HOMO LUMO; Toluene and xylene sensing; ZnO nanoflower

Indexed keywords

BENZENE; DEPOSITION; MOLECULAR ORBITALS; NANOFLOWERS; NANORODS; OXYGEN VACANCIES; PALLADIUM; PHOTOLUMINESCENCE SPECTROSCOPY; SCANNING ELECTRON MICROSCOPY; TOLUENE; X RAY DIFFRACTION; XYLENE; ZINC;

CHEMICAL BATH DEPOSITION METHODS; CHEMICAL-BATH DEPOSITION; FIELD EMISSION SCANNING ELECTRON MICROSCOPES; HIGH SENSITIVITY; HIGHEST OCCUPIED MOLECULAR ORBITAL; HOMO-LUMO; LOWEST UNOCCUPIED MOLECULAR ORBITAL; ZNO;

ZINC OXIDE;

EID: 84921334054     PISSN: 00381101     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.sse.2014.12.027     Document Type: Article

References (28)

1. R. Davidsona, C. Courage, L. Rushton, and L. Levy Occup Environ Med 58 2001 2 13
2. G.L. Gist, and J.R. Burg Toxicol Ind Health 13 1997 661 714
3. B.L. Zhu, C.S. Xiea, W.Y. Wangb, K.J. Huanga, and J.H. Hu Mater Lett 58 2004 624 629
4. K. Kanda, and T. Maekawa Sensors Actuat. B 108 2005 97 101
5. C. Gua, X. Xua, J. Huanga, W. Wanga, Y. Sunb, and J. Liu Sensors Actuat. B 174 31-3 2012 8
6. H. Ma Sensors Actuat. B 174 2012 325 331
7. M. Mabrook, and P. Hawkins Sensors 2 2002 374 382
8. X. Liang, G. Lu, T. Zhong, F. Liu, and B. Quan Sensors Actuat. B 150 2010 355 359
9. L. Liu Sensors Actuat. B 160 2011 448 454
10. Q. Qia, T. Zhanga, L. Liua, and X. Zheng Sensors Actuat. B 137 2009 471 475
11. Z. Baia, C. Xieb, S. Zhangb, W. Xua, and J. Xu Mater Sci Eng, B 176 2011 181 186
12. X. Songa, D. Zhanga, and M. Fan Appl Surf Sci 255 2009 7343 7347
13. J. Huang Sensors Actuat. B 188 2013 249 256
14. W. Schmid, N. Barsan, and U. Weima Sensors Actuat. B 89 2003 232 236
15. Z. Lou, J. Deng, L. Wang, L. Wang, T. Fei, and T. Zhang Sensors Actuat. B 176 2013 323 329
16. J. Fonollosa, L. Fernández, R. Huerta, A.G. Gálvez, and S. Marco Sensors Actuat. B 187 2013 331 339
17. M. Chen, Z. Wang, D. Han, F. Gu, and G. Guo J Phys Chem C 115 2011 12763 12773
18. T.M. Borseth, B.G. Svensson, A.Y. Kuznetsov, P. Klason, Q.X. Zhao, and M. Willander Appl Phys Lett 89 2006 262112 262113
19. F. Solís-Pomar, E. Martínez, M.F. Meléndrez, and E. Pérez-Tijerina Nanoscale Res Lett 6 2011 524
20. K.V. Gurava, U.M. Patil, S.M. Pawar, J.H. Kim, and C.D. Lokhande J Alloy Compd 509 2011 7723 7728
21. H. Zhang J Phys Chem B 108 2004 3955 3958
22. B. Bhowmik, K. Dutta, A. Hazra, and P. Bhattacharyya Solid-State Electron 99 2014 84 92
23. B. Shouli Sensors Actuat. B 146 2010 129 137
24. H. Sone, B. Fugetsu, T. Tsukada, and M. Endo Talanta 74 2008 1265 1270
25. Y. Yan, M.M. Al-Jassim, and S.H. Wei Phys Rev B 72 2005 161307
26. J.A. Rodriguez, S. Chaturvedi, M. Kuhn, and J. Hrbek J Phys Chem B 102 1998 5511 5519
27. M.T. Greiner, M.G. Helander, W.M. Tang, Z.B. Wang, J. Qiu, and Z.H. Lu Nature Materials 2012 6 10.1038/NMAT3159
28. Z. Zhang, and J.T. Yates J Am Chem Soc 132 2010 12804 12807