| 31 |
Highly sensitive and selective H-2 sensing by ZnO nanofibers and the underlying sensing mechanism
Katoch A, Choi SW, Kim HW, Kim SS
Journal of Hazardous Materials, 286, 229, 2015 |
| 32 |
Low temperature acetone detection by p-type nano-titania thin film: Equivalent circuit model and sensing mechanism
Bhowmik B, Dutta K, Hazra A, Bhattacharyya P
Solid-State Electronics, 99, 84, 2014 |
| 33 |
In situ diffuse reflectance infrared Fourier transform spectroscopy study of formaldehyde adsorption and reactions on nano gamma-Fe2O3 films
Huang KJ, Kong LC, Yuan FL, Xie CS
Applied Surface Science, 270, 405, 2013 |
| 34 |
Phosphorus doped TiO2 as oxygen sensor with low operating temperature and sensing mechanism
Han ZZ, Wang JJ, Liao L, Pan HB, Shen SF, Chen JZ
Applied Surface Science, 273, 349, 2013 |
| 35 |
A DFT study of SF6 decomposed gas adsorption on an anatase (101) surface
Zhang XX, Chen QC, Hu WH, Zhang JB
Applied Surface Science, 286, 47, 2013 |
| 36 |
Fast and highly-sensitive hydrogen sensing of Nb2O5 nanowires at room temperature
Wang Z, Hu YM, Wang W, Zhang X, Wang BX, Tian HY, Wang Y, Guan JG, Gu HS
International Journal of Hydrogen Energy, 37(5), 4526, 2012 |
| 37 |
An excellent room-temperature hydrogen sensor based on titania nanotube-arrays
Chen KS, Xie K, Feng XR, Wang SF, Hu R, Gu HS, Li Y
International Journal of Hydrogen Energy, 37(18), 13602, 2012 |
| 38 |
A highly sensitive ascorbic acid sensor using a Ni-Pt electrode
Weng YC, Lee YG, Hsiao YL, Lin CY
Electrochimica Acta, 56(27), 9937, 2011 |
| 39 |
Isotopically labeled oxygen studies of the NOx exchange behavior of La2CuO4 to determine potentiometric sensor response mechanism
Van Assche FM, Wachsman ED
Solid State Ionics, 179(39), 2225, 2008 |
| 40 |
In situ SEM studies on strain sensing mechanisms of PPy-coated electrically conducting fabrics
Xue P, Tao XM, Tsang HY
Applied Surface Science, 253(7), 3387, 2007 |
