[[1] HEYDARI, S.—HAGHAYEGH, G. : Application of Nanoparticles in Quartz Crystal Microbalance Biosensors, Journal of Sensor Technology 4 No. 2 (2014), 81–100.10.4236/jst.2014.42009]Search in Google Scholar
[[2] PIETRIKOVA, A.—URBANCIK, J. : Gas Organometallic Thick Film Sensors, Journal of Electrical Engineering 53 No. 3-4 (2002), 81–85.]Search in Google Scholar
[[3] KULHA, P.—LAPOSA, I.—LAPOSA, A.—HUSK, M. : FEM Simulation of Quartz Thickness Shear Mode Resonator for Gas Sensing Applications, Key Engineering Materials 605 (2014), 569–572.10.4028/www.scientific.net/KEM.605.569]Search in Google Scholar
[[4] WILLIAMS, O. A. : Nanocrystalline Diamond, Diamond and Related Materials 20 No. 5-6 (2011), 621–640.10.1016/j.diamond.2011.02.015]Search in Google Scholar
[[5] CHEN, Y. C.—TZENG, Y.—CHENG, A. J.—DEAN, R.—PARK, M.—WILAMOWSKI, B. M. : Inkjet Printing of Nanodiamond Suspensions in Ethylene Glycol for CVD Growth of Patterned Diamond Structures and Practical Applications, Diamond and Related Materials 18 No. 2-3 (2009), 146–150.10.1016/j.diamond.2008.10.004]Search in Google Scholar
[[6] VARGA, M.—LAPOSA, A.—KULHA, P.—KROUTIL, J.—HUSAK, M.—KROMKA, A. : Quartz Crystal Microbalance Gas Sensor with Nanocrystalline Diamond Sensitive Layer, Physica Status Solidi (B) Basic Research 252 No. 11 (2015), 2591–2597.10.1002/pssb.201552229]Search in Google Scholar
[[7] NGUYEN, V. Q.—VU, A. M.—NGUYEN, V. L.—VU, N. H. : Gas Sensing Properties at Room Temperature of a Quartz Crystal Microbalance Coated with ZnO Nanorods, Sensors and Actuators B: Chemical 153 No. 1 (2011), 188–193.]Search in Google Scholar
[[8] VASHIST, S. K.—VASHIST, P. : Recent Advances in Quartz Crystal Microbalance-Based Sensors, Journal of Sensors 2011 (2011), Article ID 571405.10.1155/2011/571405]Search in Google Scholar
[[9] YAO YAO—XIANGDONG CHEN—WENYING MA—WEIWEI LING: Quartz Crystal Microbalance Humidity Sensors Based on Nanodiamond Sensing Films, IEEE Transactions on Nanotechnology 13 No. 2 (2014), 386–393.10.1109/TNANO.2014.2305986]Search in Google Scholar