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M. Penza, F. Antolini, M. Antisari (2004)
Carbon nanotubes as SAW chemical sensors materialsSensors and Actuators B-chemical, 100
Xiaowen Xu, Jing Wang, Yingcai Long (2006)
Zeolite-based Materials for Gas SensorsSensors, 6
L. Liao, Hongbing Lu, Min Shuai, Jia-Han Li, Y. Liu, Chang Liu, Zexiang Shen, Ting Yu (2008)
A novel gas sensor based on field ionization from ZnO nanowires: moderate working voltage and high stabilityNanotechnology, 19
Sang‐Mok Chang, H. Muramatsu, C. Nakamura, J. Miyake (2000)
The principle and applications of piezoelectric crystal sensorsMaterials Science and Engineering: C, 12
S. Chang, B. Ebert, E. Tamiya, I. Karube (1990)
Detection of chemical vapor using a lipid-coated SAW resonator oscillatorJournal of Biotechnology, 16
A. Wilson, M. Baietto (2009)
Applications and Advances in Electronic-Nose TechnologiesSensors (Basel, Switzerland), 9
V. Grigor’evskiĭ, F. Lyubchenko, V. Sadovnikov, Yu. Syrykh, V. Khabarov (2010)
Optical gas analyzer intended to monitor gas emissions in the atmosphereJournal of Communications Technology and Electronics, 55
K. Sahner, R. Moos (2007)
Modeling of hydrocarbon sensors based on p-type semiconducting perovskites.Physical chemistry chemical physics : PCCP, 9 5
C. Park, S. Akbar, J. Hwang (2002)
Selective gas detection with catalytic filterMaterials Chemistry and Physics, 75
D. Vlachos, C. Papadopoulos, J. Avaritsiotis (1997)
Characterisation of the catalyst-semiconductor interaction mechanism in metal-oxide gas sensorsSensors and Actuators B-chemical, 44
K. Albert, N. Lewis, C. Schauer, G. Sotzing, Shannon Stitzel, T. Vaid, D. Walt (2000)
Cross-reactive chemical sensor arrays.Chemical reviews, 100 7
R. Gutierrez-Osuna (2002)
Pattern analysis for machine olfaction: a reviewIEEE Sensors Journal, 2
A. Grechnikov, A. Mogilevskii, Yu. Fabelinskii (2002)
Piezoelectric-Resonance Determination of Gas Concentrations under Field ConditionsJournal of Analytical Chemistry, 57
O. Varghese, P. Kichambre, D. Gong, K. Ong, E. Dickey, C. Grimes (2001)
Gas sensing characteristics of multi-wall carbon nanotubesSensors and Actuators B-chemical, 81
M. Nicho, M. Trejo, A. García-Valenzuela, J. Saniger, J. Palacios, Hailing Hu (2001)
Polyaniline composite coatings interrogated by a nulling optical-transmittance bridge for sensing low concentrations of ammonia gasSensors and Actuators B-chemical, 76
M. Pardo, G. Sberveglieri (2002)
Learning from data: a tutorial with emphasis on modern pattern recognition methodsIEEE Sensors Journal, 2
Swati Sharma, M. Madou (2012)
A new approach to gas sensing with nanotechnologyPhilosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 370
M. Arafat, B. Dinan, S. Akbar, A. Haseeb (2012)
Gas Sensors Based on One Dimensional Nanostructured Metal-Oxides: A ReviewSensors (Basel, Switzerland), 12
S. Zampolli, I. Elmi, F. Mancarella, P. Betti, E. Dalcanale, G. Cardinali, M. Severi (2009)
Real-time monitoring of sub-ppb concentrations of aromatic volatiles with a MEMS-enabled miniaturized gas-chromatographSensors and Actuators B-chemical, 141
N. Yamazoe (2005)
Toward innovations of gas sensor technologySensors and Actuators B-chemical, 108
Sari Lakkis, R. Younes, M. Ghandour, Y. Alayli (2015)
New Optical Gas Sensor for Gas Concentration Measurement Using Digital Image ProcessingSensors and Actuators B-chemical, 207
A. Dubbe (2003)
Fundamentals of solid state ionic micro gas sensorsSensors and Actuators B-chemical, 88
K. Sahner, G. Hagen, Daniela Schönauer, S. Reiß, R. Moos (2008)
Zeolites — Versatile materials for gas sensorsSolid State Ionics, 179
S. Akbar, P. Dutta, Chonghoon Lee (2006)
High‐Temperature Ceramic Gas Sensors: A ReviewInternational Journal of Applied Ceramic Technology, 3
Luz Rodríguez-González, M. Franke, U. Simon (2005)
Electrical detection of different amines with proton-conductive H-ZSM-5Studies in Surface Science and Catalysis, 158
Huiwu Long, W. Zeng, He Zhang (2015)
Synthesis of WO3 and its gas sensing: a reviewJournal of Materials Science: Materials in Electronics, 26
A. Modi, N. Koratkar, E. Lass, B. Wei, P. Ajayan (2003)
Miniaturized gas ionization sensors using carbon nanotubesNature, 424
R. Ionescu (1998)
COMBINED SEEBECK AND RESISTIVE SNO2 GAS SENSORS, A NEW SELECTIVE DEVICESensors and Actuators B-chemical, 48
B. Mitra, B. Levey, T. Fung, Y. Gianchandani (2006)
A Handheld Microdischarge Spectroscopy System for High-Speed Chemical Analysis of Gaseous and Liquid Samples19th IEEE International Conference on Micro Electro Mechanical Systems
I. Nikolaev, R. Galiev, A. Litvinov, Y. Utochkin (2004)
Sensor Selective Gas Analyzer for Small Concentrations of Hydrogen SulfideMeasurement Techniques, 47
P. Harris, W. Arnold, M. Andrews, A. Partridge (1997)
Resistance characteristics of conducting polymer films used in gas sensorsSensors and Actuators B-chemical, 42
J. Sa (2011)
An optical fiber gas sensor based on harmonic detection2011 International Conference on Electric Information and Control Engineering
B. Ding, Mo Wang, Jianyong Yu, Gang Sun (2009)
Gas Sensors Based on Electrospun NanofibersSensors (Basel, Switzerland), 9
L. Kreuzer (1971)
Ultralow Gas Concentration Infrared Absorption SpectroscopyJournal of Applied Physics, 42
H. Bai, G. Shi (2007)
Gas Sensors Based on Conducting PolymersSensors (Basel, Switzerland), 7
B. Yadav, R. Yadav, P. Dwivedi (2010)
Sol–gel processed (Mg–Zn–Ti) oxide nanocomposite film deposited on prism base as an opto-electronic humidity sensorSensors and Actuators B-chemical, 148
S. Carlo, M. Falasconi (2012)
Drift Correction Methods for Gas Chemical Sensors in Artificial Olfaction Systems: Techniques and Challenges
J. Janata (2007)
Chemical Sensors: An Introduction for Scientists and Engineers
Alain Phommahaxay, Gaelle Lissorgues, Lionel Rousseau, V. Perrais, Olivier Francais, T. Bourouina, Pierre Nicole (2007)
A Simple Optical Gas Sensor Based on Micromachined Silicon Plasma Igniters and Image ProcessingTRANSDUCERS 2007 - 2007 International Solid-State Sensors, Actuators and Microsystems Conference
K. Arshak, E. Moore, G. Lyons, J. Harris, S. Clifford (2004)
A review of gas sensors employed in electronic nose applicationsSensor Review, 24
Xicheng Ma (2012)
Towards Enhanced SnO 2 Gas Sensor: Mini-ReviewJournal of Nanoengineering and Nanomanufacturing, 2
H. Toda, T. Kobayakawa (2008)
High-speed gas concentration measurement using ultrasoundSensors and Actuators A-physical, 144
F. Annanouch, I. Gràcia, E. Figueras, E. Llobet, C. Cané, S. Vallejos (2015)
Localized aerosol-assisted CVD of nanomaterials for the fabrication of monolithic gas sensor microarraysSensors and Actuators B-chemical, 216
Z. Hou, Jiahao Wu, Weimin Zhou, Xing Wei, Dong Xu, Yafang Zhang, B. Cai (2007)
A MEMS-Based Ionization Gas Sensor Using Carbon NanotubesIEEE Transactions on Electron Devices, 54
I. Nikolaev, E. Emelin (2004)
Portable no2 gas analyzer in the concentration range 0.02-2 ppm based on a mds-sensorMeasurement Techniques, 47
D. Wilson, Sean Hoyt, Jiri Janata, K. Booksh, Louis Obando (2001)
Chemical sensors for portable, handheld field instrumentsIEEE Sensors Journal, 1
J. Dakin, P. Chambers (2006)
REVIEW OF METHODS OF OPTICAL GAS Detection by Direct Optical Spectroscopy, with Emphasis on Correlation Spectroscopy
Yufeng Sun, Shao-Bo Liu, Fanli Meng, Jinyun Liu, Zhen Jin, Lingtao Kong, Jinhuai Liu (2012)
Metal Oxide Nanostructures and Their Gas Sensing Properties: A ReviewSensors (Basel, Switzerland), 12
R. Moos, K. Sahner, M. Fleischer, U. Guth, N. Bârsan, U. Weimar (2009)
Solid State Gas Sensor Research in Germany – a Status ReportSensors (Basel, Switzerland), 9
J. Elizalde-Torres, Hailing Hu, A. García-Valenzuela (2004)
NO2-induced optical absorbance changes in semiconductor polyaniline thin filmsSensors and Actuators B-chemical, 98
Douglas Kauffman, A. Star (2008)
Carbon nanotube gas and vapor sensors.Angewandte Chemie, 47 35
S.R. Aashis, T. Machappa, A. Prasad, R.A. Koppalkar
Sensitivity and selectivity studies on polyaniline/molybdenum trioxide composites to liquid petroleum gas
A. Turner, I. Karube, G. Wilson, P. Worsfold (1987)
Biosensors : fundamentals and applicationsAnalytica Chimica Acta, 201
E. Kretschmann, H. Raether (1968)
Notizen: Radiative Decay of Non Radiative Surface Plasmons Excited by LightZeitschrift für Naturforschung A, 23
A. Parveen, A. Koppalkar, A. Roy (2012)
Surface Modified ${\rm CaTiO}_{3}$ Loaded in Polyaniline by Sodium Dodecyl Benzene Sulphonic Acid for Humidity SensorIEEE Sensors Journal, 12
R. Cattrall (1997)
Chemical Sensors
A. Johnson, Cristian Staii, Michelle Chen, S. Khamis, Robert Johnson, M. Klein, A. Gelperin (2005)
DNA-decorated carbon nanotubes for chemical sensingSemiconductor Science and Technology, 21
S. Capone, A. Forleo, L. Francioso, R. Rella, P. Siciliano, J. Spadavecchia, D. Presicce, A. Taurino, D. Forleo (2003)
SOLID STATE GAS SENSORS: STATE OF THE ART AND FUTURE ACTIVITIESChemInform, 35
R. Jha, A. Sharma (2011)
Design considerations for plasmonic-excitation based optical detection of liquid and gas media in infraredSensors and Actuators A-physical, 165
M. Padilla, A. Perera, I. Montoliu, A. Chaudry, K. Persaud, S. Marco (2010)
Drift compensation of gas sensor array data by Orthogonal Signal CorrectionChemometrics and Intelligent Laboratory Systems, 100
Seongjeen Kim (2006)
CNT Sensors for Detecting Gases with Low Adsorption Energy by IonizationSensors (Basel, Switzerland), 6
A. Giani, A. Bayaz, A. Boulouz, F. Pascal-Delannoy, A. Foucaran, A. Boyer (2002)
Thermoelectric microsensor for pressure and gas concentration measurementMaterials Science and Engineering B-advanced Functional Solid-state Materials, 95
Y. Jang, S. Moon, J. Ahn, Yun‐Hi Lee, B. Ju (2004)
A simple approach in fabricating chemical sensor using laterally grown multi-walled carbon nanotubesSensors and Actuators B-chemical, 99
I. Nikolaev, A. Litvinov, T. Khalfin (2004)
Automatic Gas Analyzers for Hydrogen in the Volumetric Concentration Range 10–6–1.0%Measurement Techniques, 47
R. Moos, K. Sahner, G. Hagen, A. Dubbe (2006)
Zeolites for Sensors for Reducing Gases, 35
Aashis Roy, K. Anilkumar, M. Sasikala, T. Machappa, M. Prasad (2011)
Sensitivity Enhancement for LPG Detection by Employing Cadmium Oxide Doped in Nanocrystalline PolyanilineSensor Letters, 9
C. Elosúa, I. Matías, C. Bariain, F. Arregui (2006)
Development of an In-Fiber Nanocavity Towards Detection of Volatile Organic GasesSensors (Basel, Switzerland), 6
G. Fine, L. Cavanagh, A. Afonja, R. Binions (2010)
Metal Oxide Semi-Conductor Gas Sensors in Environmental MonitoringSensors (Basel, Switzerland), 10
E. Kolesar, R. Reston (1997)
Silicon micromachined gas chromatography system1997 Proceedings Second Annual IEEE International Conference on Innovative Systems in Silicon
Duk-Dong Lee, Dae-Sik Lee (2001)
Environmental gas sensorsIEEE Sensors Journal, 1
K. Schjølberg-Henriksen, O. Schulz, A. Ferber, S. Moe, M. Lloyd, G. Muller, Karl-Heinz Suphan, D.T. Wang, R. Bernstein (2008)
Sensitive and Selective Photoacoustic Gas Sensor Suitable for High-Volume ManufacturingIEEE Sensors Journal, 8
R. Moos, Ralf Müller, C. Plog, A. Knezevic, Holger Leye, Eckard Irion, T. Braun, K. Marquardt, K. Binder (2002)
Selective ammonia exhaust gas sensor for automotive applicationsSensors and Actuators B-chemical, 83
M. Mello, A. Risi, A. Passaseo, M. Lomascolo, M. Vittorio (2006)
Carbon-monoxide (CO) Real Time Monitoring in Combustion Engines by an Optical Detection System2006 Ph.D. Research in Microelectronics and Electronics
N. Sinha, Jiazhi Ma, J. Yeow (2006)
Carbon nanotube-based sensors.Journal of nanoscience and nanotechnology, 6 3
Guoliang Wang, H. Arwin, R. Jansson (2002)
An optical gas sensor based on ellipsometric readoutProceedings of IEEE Sensors, 1
Yu Hong (2002)
Review of the Optical Fiber Gas SensorLaser & Infrared
Satyendra Singh, N. Verma, B. Yadav, R. Prakash (2012)
A comparative study on surface morphological investigations of ferric oxide for LPG and opto-electronic humidity sensorsApplied Surface Science, 258
S. Gavrilov, E. Il'ichev, É. Poltoratskiǐ, G. Rychkov, V. Dvorkin, N. Dzbanovsky, N. Suetin (2004)
Carbon nanotube field emitters for planar emission vacuum micro-and nanoelectronicsTechnical Physics Letters, 30
K. Ong, Kefeng Zeng, C. Grimes (2002)
A wireless, passive carbon nanotube-based gas sensorIEEE Sensors Journal, 2
A. Radadia, A. Salehi‐khojin, R. Masel, M. Shannon (2010)
The effect of microcolumn geometry on the performance of micro-gas chromatography columns for chip scale gas analyzersSensors and Actuators B-chemical, 150
S. Fanget, S. Hentz, P. Puget, J. Arcamone, M. Matheron, É. Colinet, P. Andreucci, L. Duraffourg, E. Myers, M. Roukes (2011)
Gas sensors based on gravimetric detection—A reviewSensors and Actuators B-chemical, 160
M. Amrani, P. Payne (1999)
Multi-frequency interrogation technique applied to conducting polymer gas and odour sensors, 146
A. Yarai, T. Nakanishi (2004)
Optical fiber gas sensor based on thermal lens spectroscopy instrument composed of spherical lensed fibersProceedings of IEEE Sensors, 2004.
J. Kong, N. Franklin, Chongwu Zhou, M. Chapline, S. Peng, Kyeongjae Cho, H. Dai (2000)
Nanotube molecular wires as chemical sensorsScience, 287 5453
F. Musio, M. Amrani, K. Persaud (1995)
High-frequency a.c. investigation of conducting polymer gas sensorsSensors and Actuators B-chemical, 23
D. Kohl (2001)
Function and applications of gas sensorsJournal of Physics D, 34
Purpose – This paper aims to give an overview about the state of the art and novel technologies used in gas sensing. It also discusses the miniaturization potential of some of these technologies in a comparative way. Design/methodology/approach – In this article, the authors state the most of the methods used in gas sensing discuss their advantages and disadvantages and at last the authors discuss the ability of their miniaturization comparing between them in terms of their sensing parameters like sensitivity, selectivity and cost. Findings – In this article, the authors will try to cover most of the important methods used in gas sensing and their recent developments. The authors will also discuss their miniaturization potential trying to find the best candidate among the different types for the aim of miniaturization. Originality/value – In this article, the authors will review most of the methods used in gas sensing and discuss their miniaturization potential delimiting the research to a certain type of technology or application.
Sensor Review – Emerald Publishing
Published: Jan 14, 2014
Keywords: Gas; Miniature
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