Multi-wall carbon nanotubes (MWNTs) film-based sensor on the substrate of printed circuit board (PCB) with inter digital electrodes (IDE) were fabricated using layer-by-layer self-assembly, and the electrical properties of MWNTs film sensor were investigated through establishing models involved with number of self-assembled layers and IDE finger gap, and also its ethanol gas-sensing properties with varying gas concentration are characterized at room temperature. Through comparing with the thermal evaporation method, the experiment results shown that the layer-by-layer self-assembled MWNTs film sensor have a faster response and more sensitive resistance change when exposed to ethanol gas, indicated a prospective application for ethanol gas detection with high performance and low-cost.

Budi G, Muhammad R, Hendro J. Characterization of Polymeric Chemiresistors for Gas Sensor. TELKOMNIKA. 2012; 10(2): 275-280.

Osama Elsayed G, Mohamed Dessoky A, Ali-Hassan. Comparasion between Oil Immersed and SF6 Gas: Power Transformers Ratings. TELKOMNIKA. 2012; 10(1): 43-54.

Iijima S. Helical Microtubules of Graphitic Carbon. Nature. 1991; 354(7): 56-58.

Yun W, John TWY. A Review of Carbon Nanotubes-Based Gas Sensors. Journal of Sensors. 2009; 2009:1-24.

Ke X, Chengdong W, Xiaojun T, Jian L, Mengxin L, Ying Z, Zaili D. Single-Walled Carbon Nanotube-Based Gas Sensors for NO2 Detection. Integrated Ferroelectrics. 2012; 135: 132-137.

Ning P, Qing Z, Chee LC, Ooi KT, Nicola M. Sensing Mechanisms for Carbon Nanotube Based NH3 Gas Detection. Nano Letters. 2009; 9(4): 1626-1630.

Md Yasin F. Room Temperature Multi Gas Detection Using Carbon Nanotubes. European Journal of Scientific Research. 2009; 35(1): 142-149.

Karimov KHS, Ahmed MM, Karieva ZM, Saleem M, Mateen A, Moiz SA. Humidity Sensing Properties of Carbon Nano-Tube Thin Films. Sensor Letters. 2011; 9(5): 1649-1653.

Ning D, Hui Z, Bindi C, Xiangyang M, Zhihong L, Jianbo W, Deren Y. Porous Indium Oxide Nanotubes: Layer-by-Layer Assembly on Carbon-Nanotube Templates and Application for Room-Temperature NH3 Gas Sensors. Advanced Materials. 2007; 19(12): 1641-1645.

Yijiang L, Jing L, Jie H, H-T Ng, Christie B, Christina P, Meyyappan M. Room Temperature Methane Detection Using Palladium Loaded Single-Walled Carbon Nanotube Sensors. Chemical Physics Letters. 2004; 391(4-6): 344-348.

Haihu Y, Tong C, Lingde Z, Erdan G, Dingshan Y, Desheng J. Layer-by-Layer Assembly and Humidity Sensitive Behavior of Poly(ethyleneimine)/Multiwall Carbon Nanotube Composite Films. Sensors and Actuators B: Chemical. 2006; 119(2): 512-515.

Mandy LYS , Gary CTC, Gary MKW, Wen JL, Philip HWL, Ka WW. Ultralow-Power Alcohol Vapor Sensors Using Chemically Functionalized Multiwalled Carbon Nanotubes. IEEE Transactions on Nanotechnology. 2007; 6(5): 571-577.

Brahim S, Colbern S, Gump R, Moser A, Grigorian L. Carbon Nanotube-Based Ethanol Sensors. Nanotechnology. 2009; 20(23): 235502-235508.

Liang YX, Chen YJ, Wang TH. Low-resistance Gas Sensors Fabricated from Multiwalled Carbon Nanotubes Coated with A Thin Tin Oxide Laye. Applied Physics Letter. 2004; 85(4): 666-668.

Phetchakul T, Sangnual A, Sutthinet C. Investigation on Temperature Effect on Alcohol Sensing of Multi-Walled Carbon Nanotube. 6th IEEE International Conference on Nano/Micro Engineered and Molecular Systems. Kaohsiung Taiwan. 2011; 363-366.

Yujin C, Chunling Z, Taihong W. The Enhanced Ethanol Sensing Properties of Multi-walled Carbon Nanotubes/SnO2 Core/Shell Nanostructures. Nanotechnology. 2006; 17(12): 3012-3017.

Podsiadlo P, Kaushik AK, Arruda EM, Waas AM, Shim BS, Xu JD, Nandivada H, Pumplin BG, Lahann J, Ramamoorthy A, Kotov NA, Ultrastrong and stiff layered polymer nanocomposites. Science. 2007; 318: 80-83.

Dongzhi Z, Tianhong C. Tunable Mechanical Properties of Layer-by-Layer Self-Sssembled Carbon Nanotube/Polymer Nanocomposite Membranes for M/NEMS. Sensors and Actuators A: Physical. 2012; 18(10): 101-108.