Access the full text.
Sign up today, get DeepDyve free for 14 days.
Guolong Shi, Bai Sun, Zhen Jin, Jinhuai Liu, Minqiang Li (2012)
Synthesis of SiO2/Fe3O4 nanomaterial and its application as cataluminescence gas sensor material for etherSensors and Actuators B-chemical, 171
J. Llinas, D. Hall (1998)
An introduction to multi-sensor data fusionISCAS '98. Proceedings of the 1998 IEEE International Symposium on Circuits and Systems (Cat. No.98CH36187), 6
S. Kawi, Y. Tang, K. Hidajat, L. Yu (2005)
Synthesis and Characterization of Nanoscale CeO2 Catalyst for deNOxJournal of Metastable and Nanocrystalline Materials, 23
Zhao Yan, Wei Wei, Hao Meiping, Peiyi Shen, Zhao Minli, Wei Wang (2012)
An Effective Secure Routing Way to Reduce Energy Consumption in Wireless Sensor NetworksInternational Journal on Advances in Information Sciences and Service Sciences, 4
Mao Shi (2002)
Comments on Multisensor Image Fusion TechniquesJournal of Beijing University of Aeronautics and Astronautics
Yongfa Zhu, Jinjun Shi, Zhenyu Zhang, Chao Zhang, Xinrong Zhang (2002)
Development of a gas sensor utilizing chemiluminescence on nanosized titanium dioxide.Analytical chemistry, 74 1
D. Schurig, J. Mock, B. Justice, S. Cummer, J. Pendry, A. Starr, David Smith (2006)
Metamaterial Electromagnetic Cloak at Microwave FrequenciesScience, 314
Zhi-ming Rao, Linjie Liu, Jing-yi Xie, Yu-Lin Zeng (2008)
Development of a benzene vapour sensor utilizing chemiluminescence on Y2O3.Luminescence : the journal of biological and chemical luminescence, 23 3
M. Breysse, B. Claudel, L. Faure, M. Guenin, Roberto Williams, T. Wolkenstein (1976)
Chemiluminescence during the catalysis of carbon monoxide oxidation on a thoria surfaceJournal of Catalysis, 45
E. Gennaro, I. Gallina, A. Andreone, G. Castaldi, V. Galdi (2010)
Experimental evidence of cut-wire-induced enhanced transmission of transverse-electric fields through sub-wavelength slits in a thin metallic screen.Optics express, 18 26
Yayan Wu, Sichun Zhang, Na Na, Xin Wang, Xinrong Zhang (2007)
A novel gaseous ester sensor utilizing chemiluminescence on nano-sized SiO2Sensors and Actuators B-chemical, 126
Jing Hu, Kailai Xu, Yun-Wan Jia, Yi Lv, Yubao Li, X. Hou (2008)
Oxidation of ethyl ether on borate glass: chemiluminescence, mechanism, and development of a sensitive gas sensor.Analytical chemistry, 80 21
Hung-Bin Lin, J. Shih (2003)
Fullerene C60-cryptand coated surface acoustic wave quartz crystal sensor for organic vaporsSensors and Actuators B-chemical, 92
W. Cao, Ranjan Singh, I. Al-Naib, Ming-xia He, A. Taylor, Weili Zhang (2012)
Low-loss ultra-high-Q dark mode plasmonic Fano metamaterials.Optics letters, 37 16
S. Lee, C. Lee, S. Shin, B. Gu, S. Kim, T. Kang, S. Kim (2010)
Enhanced actuation of PPy/CNT hybrid fibers using porous structured DNA hydrogelSensors and Actuators B-chemical, 145
N. Papasimakis, Y. Fu, V. Fedotov, S. Prosvirnin, D. Tsai, N. Zheludev (2009)
Metamaterial with polarization and direction insensitive resonant transmission response mimicking electromagnetically induced transparencyApplied Physics Letters, 94
B. Luk’yanchuk, N. Zheludev, S. Maier, N. Halas, P. Nordlander, H. Giessen, C. Chong (2010)
The Fano resonance in plasmonic nanostructures and metamaterials.Nature materials, 9 9
Kaowen Zhou, Xiaolin Ji, Nan Zhang, Xinrong Zhang (2006)
On-line monitoring of formaldehyde in air by cataluminescence-based gas sensorSensors and Actuators B-chemical, 119
Xiaoan Cao, Xinrong Zhang (2005)
A research on determination of explosive gases utilizing cataluminescence sensor array.Luminescence : the journal of biological and chemical luminescence, 20 4-5
Xiaoan Cao, Zhenyu Zhang, Xinrong Zhang (2004)
A novel gaseous acetaldehyde sensor utilizing cataluminescence on nanosized BaCO3Sensors and Actuators B-chemical, 99
Yongmeng Zhang, Yulie Wu, Xuezhong Wu, X. Xi, Jianqiu Wang (2015)
A Novel Vibration Mode Testing Method for Cylindrical Resonators Based on MicrophonesSensors (Basel, Switzerland), 15
Dae-Sik Lee, Ho-Yong Jung, J. Lim, Minho Lee, Sang-Woo Ban, J. Huh, Duk-Dong Lee (2000)
Explosive gas recognition system using thick film sensor array and neural networkSensors and Actuators B-chemical, 71
A. Christ, O. Martin, Y. Ekinci, N. Gippius, S. Tikhodeev (2008)
Symmetry breaking in a plasmonic metamaterial at optical wavelength.Nano letters, 8 8
R. Potyrailo, V. Mirsky (2008)
Combinatorial and high-throughput development of sensing materials: the first 10 years.Chemical reviews, 108 2
Zhao Yan, Wei Wei, T. Xiaojun, Zhao Minli (2012)
Choice of Optimized Scheme Parameters of Neural Networks Based on Error HandlingInternational Journal on Advances in Information Sciences and Service Sciences, 4
Ranjan Singh, I. Al-Naib, M. Koch, Weili Zhang (2011)
Sharp Fano resonances in THz metamaterials.Optics express, 19 7
Bo Li, G. Sauvé, M. Iovu, M. Jeffries‐EL, Rui Zhang, J. Cooper, S. Santhanam, L. Schultz, J. Revelli, A. Kusne, T. Kowalewski, J. Snyder, L. Weiss, G. Fedder, R. Mccullough, D. Lambeth (2006)
Volatile organic compound detection using nanostructured copolymers.Nano letters, 6 8
Qihui Wang, Lijun Xie, Bo Zhu, Yao Zheng, S. Cao (2013)
Harmful Gas Recognition Exploiting a CTL Sensor ArraySensors (Basel, Switzerland), 13
Purpose – The purpose of this study satisfied the need for rapid, sensitive and highly portable identification of an explosion gas. In our study, a battery-operated, low-cost and portable gas detection system consisting of a cataluminescence-based sensor array was developed for the detection and identification of explosion gas. This device shows how the discriminatory capacity of sensor arrays utilizing pattern recognition operate in environments. Design/methodology/approach – A total of 25 sensor units, including common metal oxides and decorated materials, have been carefully selected as sensing elements of 5 × 5 sensor array. Dynamic and static analysis methods were utilized to characterize the performance of the explosion gas detection system to five kinds of explosion gases. The device collects images of chemical sensors before and after exposing to the target gas and then processes those images to extract the unique characteristic for each gas. Hierarchical cluster analysis (HCA) and principal component analysis (PCA) were used to analyze the image patterns. Findings – Our study demonstrated that the portable gas detection device shows promising perspective for the recognition and discrimination of explosion gas. It can be used for the olfactory system of robot made by integrating the electronic nose and computer together. Originality/value – The device collects images of chemical sensors before and after exposing to the target gas and then processes those images to extract the unique characteristic for each gas. HCA and (PCA were used to analyze the image patterns. Our study demonstrated that the portable gas detection device shows promising perspective for the recognition and discrimination of explosion gas. It can be used for olfactory system of robot made by integrating the electronic nose and computer together.
Sensor Review – Emerald Publishing
Published: Jan 18, 2016
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.