References
- H.T. Hsueha, T.J. Hsuehb, and S.J. Chang, et al., CuO nanowire-based humidity sensors prepared on glass substrate. Sensors and Actuators B.156, 906–911 (2011).
- Y. Wang, S. Park, and J.T. W. Yeow, et al., A capacitive humidity sensor based on ordered macroporous silicon with thin film surface coating. Sens. Actuators B. 149, 136–142 (2010).
- C.H. Yuan, Y.T. Xu, and Y.M. Deng, et al., CuO based inorganic–organic hybrid nanowires: a new type of highly sensitive humidity sensor. Nanotechnology. 21, 415501–415505 (2010).
- D.D. Li, J. Hu, R.Q. Wu, and J.G. Lu, Conductometric chemical sensor based on individual CuO nanowires. Nanotechnology. 21, 485502–485506 (2010).
- Z.C. Meng, J.B. Zheng, and Q.L. Sheng, et al. In situ synthesis of thulium(III) hexacyanoferrate(II) nanoparticles and its application for glucose detection. Anal Chim Acta. 689, 47–52 (2011).
- J.J. Li, R. Yuan, and Y.Q. Chai, Nonenzymatic glucose sensor based on a glassy carbon electrode modified with chains of platinum hollow nanoparticles and porous gold nanoparticles in a chitosan membrane. Microchim Acta. 172, 163–169 (2011).
- X.J. Zhang, A.X. Gu, and G.F. Wang. Fabrication of CuO nanowalls on Cu substrate for a high performance enzyme-free glucose sensor. Cryst Eng Comm. 12, 1120–1126 (2010).
- W.G. Xue, G.H. Cheng, and H Liu, et al. Synthesis of CuO nanostructures and their application for nonenzymatic glucose sensing. Sens Actuat B: Chem. 144, 220–226 (2010).