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2013 | OriginalPaper | Buchkapitel

1. Introduction

verfasst von : Ghenadii Korotcenkov

Erschienen in: Handbook of Gas Sensor Materials

Verlag: Springer New York

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Abstract

Atmospheric air contains numerous kinds of chemical species, natural and artificial, some of which are vital to our life while many others are more or less harmful. Gas sensors control the composition of the air and therefore these devices make it possible to control the quality of the surrounding atmosphere. This chapter describes possible areas of applications as well as approaches used for gas sensor classification, discusses requirements for gas sensors vs the field of application, and carries out a comparative analysis of gas sensors based on different principles of operation. A general consideration of materials acceptable for gas sensor design is included. The chapter includes 16 figures, 23 tables, and 177 references.

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Literatur
Zurück zum Zitat Adamchuk VI, Hummel IW, Morgan MT, Upadhyaya SK (2004) On-the-go soil sensors for precision agriculture. Comput Electron Agric 44(1):71–91 Adamchuk VI, Hummel IW, Morgan MT, Upadhyaya SK (2004) On-the-go soil sensors for precision agriculture. Comput Electron Agric 44(1):71–91
Zurück zum Zitat Adhikari B, Majumdar S (2004) Polymers in sensor applications. Prog Polym Sci 29:699–766 Adhikari B, Majumdar S (2004) Polymers in sensor applications. Prog Polym Sci 29:699–766
Zurück zum Zitat Afzal A, Dickert FL (2011) Surface acoustic wave sensors for chemical applications. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 3, Solid state devices. Momentum Press, New York, pp 447–484 Afzal A, Dickert FL (2011) Surface acoustic wave sensors for chemical applications. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 3, Solid state devices. Momentum Press, New York, pp 447–484
Zurück zum Zitat Afzal A, Cioffi N, Sabbatini L, Torsi L (2012) NOx sensors based on semiconducting metal oxide nanostructures: progress and perspectives. Sens Actuators B 171–172:25–42 Afzal A, Cioffi N, Sabbatini L, Torsi L (2012) NOx sensors based on semiconducting metal oxide nanostructures: progress and perspectives. Sens Actuators B 171–172:25–42
Zurück zum Zitat Ando M (2006) Recent advances in optochemical sensors for the detection of H2, O2, O3, CO, CO2 and H2O in air. Trends Anal Chem 25(10):937–948 Ando M (2006) Recent advances in optochemical sensors for the detection of H2, O2, O3, CO, CO2 and H2O in air. Trends Anal Chem 25(10):937–948
Zurück zum Zitat Aroutiounian V (2007) Metal oxide hydrogen, oxygen, and carbon monoxide sensors for hydrogen setups and cells. Int J Hydrogen Energy 32(9):1145–1158 Aroutiounian V (2007) Metal oxide hydrogen, oxygen, and carbon monoxide sensors for hydrogen setups and cells. Int J Hydrogen Energy 32(9):1145–1158
Zurück zum Zitat Arshak K, Moore E, Lyons GM, Harris J, Clifford S (2004) A review of gas sensors employed in electronic nose applications. Sensor Rev 24(2):181–198 Arshak K, Moore E, Lyons GM, Harris J, Clifford S (2004) A review of gas sensors employed in electronic nose applications. Sensor Rev 24(2):181–198
Zurück zum Zitat Arya SK, Krishnan S, Silva H, Jeana S, Bhansali S (2012) Advances in materials for room temperature hydrogen sensors. Analyst 137:2743–2756 Arya SK, Krishnan S, Silva H, Jeana S, Bhansali S (2012) Advances in materials for room temperature hydrogen ­sensors. Analyst 137:2743–2756
Zurück zum Zitat Ast C, Schmälzlin E, Löhmannsröben H-G, van Dongen JT (2012) Optical oxygen micro- and nanosensors for plant applications. Sensors 12:7015–7032 Ast C, Schmälzlin E, Löhmannsröben H-G, van Dongen JT (2012) Optical oxygen micro- and nanosensors for plant applications. Sensors 12:7015–7032
Zurück zum Zitat Azevedo AM, Prazeres DMF, Cabral JMS, Fonseca LP (2005) Ethanol biosensors based on alcohol oxidase. Biosens Bioelectron 21(2):235–247 Azevedo AM, Prazeres DMF, Cabral JMS, Fonseca LP (2005) Ethanol biosensors based on alcohol oxidase. Biosens Bioelectron 21(2):235–247
Zurück zum Zitat Baldini F, Chester AN, Homola J, Martellucci S (eds) (2006) Optical chemical sensors. Springer, Dordrecht Baldini F, Chester AN, Homola J, Martellucci S (eds) (2006) Optical chemical sensors. Springer, Dordrecht
Zurück zum Zitat Barsan N, Weimar U (2001) Conduction model of metal oxide gas sensors. J Electroceram 7:143–167 Barsan N, Weimar U (2001) Conduction model of metal oxide gas sensors. J Electroceram 7:143–167
Zurück zum Zitat Basu S, Basu PK (2009) Nanocrystalline metal oxides for methane sensors: role of noble metals. J Sensors 2009, 861968 Basu S, Basu PK (2009) Nanocrystalline metal oxides for methane sensors: role of noble metals. J Sensors 2009, 861968
Zurück zum Zitat Battison FM, Ramseyer J-P, Lang HP, Baller MK, Gerber C, Gimzewski JK, Meyer E, Guntherodt H-J (2001) A chemical sensor based on a microfabricated cantilever array with simultaneous resonance-frequency and bending readout. Sens Actuators B 77:122–131 Battison FM, Ramseyer J-P, Lang HP, Baller MK, Gerber C, Gimzewski JK, Meyer E, Guntherodt H-J (2001) A chemical sensor based on a microfabricated cantilever array with simultaneous resonance-frequency and bending readout. Sens Actuators B 77:122–131
Zurück zum Zitat Boon-Brett L, Bousek J, Moretto P (2009) Reliability of commercial available hydrogen sensors for detection of hydrogen at critical concentrations: part II – selected sensor test results. Int J Hydrogen Energy 34:562–571 Boon-Brett L, Bousek J, Moretto P (2009) Reliability of commercial available hydrogen sensors for detection of ­hydrogen at critical concentrations: part II – selected sensor test results. Int J Hydrogen Energy 34:562–571
Zurück zum Zitat Brett CMA (2001) Electrochemical sensors for environmental monitoring. Strategy and examples. Pure Appl Chem 73(12):1969–1977 Brett CMA (2001) Electrochemical sensors for environmental monitoring. Strategy and examples. Pure Appl Chem 73(12):1969–1977
Zurück zum Zitat Brett CMA, Brett AMO (1998) Electroanalysis. Oxford University Press, Oxford Brett CMA, Brett AMO (1998) Electroanalysis. Oxford University Press, Oxford
Zurück zum Zitat Brinzari V, Korotchenkov G, Dmitriev S (2000) Theoretical study of semiconductor thin film gas sensitivity: attempt to consistent approach. J Electron Technol 33:225–235 Brinzari V, Korotchenkov G, Dmitriev S (2000) Theoretical study of semiconductor thin film gas sensitivity: attempt to consistent approach. J Electron Technol 33:225–235
Zurück zum Zitat Britton CL Jr, Jones RL, Oden PI, Hu Z, Warmack RJ, Smith SF, Bryan WL, Rochelle JM (2000) Multiple-input microcantilever sensors. Ultramicroscopy 82:17–21 Britton CL Jr, Jones RL, Oden PI, Hu Z, Warmack RJ, Smith SF, Bryan WL, Rochelle JM (2000) Multiple-input microcantilever sensors. Ultramicroscopy 82:17–21
Zurück zum Zitat Brown VR (2006) Sensor selection for hand-held portable gas detection. In: Mars-Proietti L (ed) The grey house safety and security directory. Grey House Publishing, Millerton, NY, pp 291–293, http://www.enmet.com Brown VR (2006) Sensor selection for hand-held portable gas detection. In: Mars-Proietti L (ed) The grey house safety and security directory. Grey House Publishing, Millerton, NY, pp 291–293, http://​www.​enmet.​com
Zurück zum Zitat Cao W, Duan Y (2006) Breath analysis: potential for clinical diagnosis and exposure assessment. Clin Chem 52(5):800–811 Cao W, Duan Y (2006) Breath analysis: potential for clinical diagnosis and exposure assessment. Clin Chem 52(5):800–811
Zurück zum Zitat Capone S, Forleo A, Francioso L, Rella R, Siciliano P, Spadavecchia J, Presicce DS, Taurino AM (2003) Solid state gas sensors: state of the art and future activities. J Optoelectron Adv Mater 5(5):1335–1348 Capone S, Forleo A, Francioso L, Rella R, Siciliano P, Spadavecchia J, Presicce DS, Taurino AM (2003) Solid state gas sensors: state of the art and future activities. J Optoelectron Adv Mater 5(5):1335–1348
Zurück zum Zitat CFR (1994) Code of Federal Regulations: the Superintendent of Documents. U.S. Government Printing Office, Washington, DC CFR (1994) Code of Federal Regulations: the Superintendent of Documents. U.S. Government Printing Office, Washington, DC
Zurück zum Zitat Chan K, Ito H, Inaba H (1984) An optical fiber-based gas sensor for remote absorption measurements of low-level methane gas in the near-infrared region. J Lightwave Technol LT-2:234–237 Chan K, Ito H, Inaba H (1984) An optical fiber-based gas sensor for remote absorption measurements of low-level methane gas in the near-infrared region. J Lightwave Technol LT-2:234–237
Zurück zum Zitat Chan PCH, Yan G, Sheng L, Sharma RK, Tang Z, Sin JKO, Hising L-M, Wang Y (2002) An integrated gas sensor technology using surface micromachining. Sens Actuators B 82:277–283 Chan PCH, Yan G, Sheng L, Sharma RK, Tang Z, Sin JKO, Hising L-M, Wang Y (2002) An integrated gas sensor ­technology using surface micromachining. Sens Actuators B 82:277–283
Zurück zum Zitat Chatzandroulis S, Tserepi A, Goustouridis D, Normand P, Tsoukalas D (2002) Fabrication of single crystal Si cantilevers using a dry release process and application in a capacitive-type humidity sensor. Microelectron Eng 61–62: 955–961 Chatzandroulis S, Tserepi A, Goustouridis D, Normand P, Tsoukalas D (2002) Fabrication of single crystal Si cantilevers using a dry release process and application in a capacitive-type humidity sensor. Microelectron Eng 61–62: 955–961
Zurück zum Zitat Chatzandroulis S, Tsouti V, Raptis I, Goustouridis D (2011) Capacitance-type chemical sensors. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 4, Solid state sensors. Momentum Press, New York, pp 229–260 Chatzandroulis S, Tsouti V, Raptis I, Goustouridis D (2011) Capacitance-type chemical sensors. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 4, Solid state sensors. Momentum Press, New York, pp 229–260
Zurück zum Zitat Chen Z, Lu C (2005) Humidity sensors: a review of materials and mechanisms. Sensor Lett 3:274–295 Chen Z, Lu C (2005) Humidity sensors: a review of materials and mechanisms. Sensor Lett 3:274–295
Zurück zum Zitat Choi MMF, Hawkin P (2003) Development of an optical hydrogen sulphide sensor. Sens Actuators B 90:211–215 Choi MMF, Hawkin P (2003) Development of an optical hydrogen sulphide sensor. Sens Actuators B 90:211–215
Zurück zum Zitat Chou J (2000) Hazardous gas monitors: a practical guide to selection, operation and application. McGraw-Hill, New York Chou J (2000) Hazardous gas monitors: a practical guide to selection, operation and application. McGraw-Hill, New York
Zurück zum Zitat Cleaver KD (2001) The analysis of process gases: a review. Accred Qual Assur 6(1):8–15 Cleaver KD (2001) The analysis of process gases: a review. Accred Qual Assur 6(1):8–15
Zurück zum Zitat Clifford PK (1983) Microcomputational selectivity enhancement of semiconductor gas sensors. In: Proceeding of international meeting on chemical sensors, Fukuoka, 19–22 Sept 1983, pp 153–158 Clifford PK (1983) Microcomputational selectivity enhancement of semiconductor gas sensors. In: Proceeding of ­international meeting on chemical sensors, Fukuoka, 19–22 Sept 1983, pp 153–158
Zurück zum Zitat Cutmore TRH, James DA (2007) Sensors and sensor systems for psychophysiological monitoring: a review of current trends. J Psychophysiol 21(1):51–71 Cutmore TRH, James DA (2007) Sensors and sensor systems for psychophysiological monitoring: a review of current trends. J Psychophysiol 21(1):51–71
Zurück zum Zitat Docquier N, Candel S (2002) Combustion control and sensor: a review. Prog Energy Combust Sci 28:107–150 Docquier N, Candel S (2002) Combustion control and sensor: a review. Prog Energy Combust Sci 28:107–150
Zurück zum Zitat DOE (2002) Glass industry: technology road map. DOE Report, Apr 2002 DOE (2002) Glass industry: technology road map. DOE Report, Apr 2002
Zurück zum Zitat Doll T, Lechner J, Eisele I, Schierbaum KD, Gopel W (1996) Ozone detection in the ppb range with work function sensors operating at room temperature. Sens Actuators B 34:506–510 Doll T, Lechner J, Eisele I, Schierbaum KD, Gopel W (1996) Ozone detection in the ppb range with work function ­sensors operating at room temperature. Sens Actuators B 34:506–510
Zurück zum Zitat Drake C, Deshpande S, Bera D, Seal S (2007) Metallic nanostructured materials based sensors. Intern Mater Rev 52(5):289–317 Drake C, Deshpande S, Bera D, Seal S (2007) Metallic nanostructured materials based sensors. Intern Mater Rev 52(5):289–317
Zurück zum Zitat Eisele I, Doll T, Burgmair M (2001) Low power gas detection with FET sensors. Sens Actuators B 78:19–25 Eisele I, Doll T, Burgmair M (2001) Low power gas detection with FET sensors. Sens Actuators B 78:19–25
Zurück zum Zitat Ekedahl L-G, Eriksson M, Lundström I (1998) Hydrogen sensing mechanisms of metal-insulator interfaces. Acc Chem Res 31:249–256 Ekedahl L-G, Eriksson M, Lundström I (1998) Hydrogen sensing mechanisms of metal-insulator interfaces. Acc Chem Res 31:249–256
Zurück zum Zitat Eranna G, Joshi BC, Runthala DP, Gupta RP (2004) Oxide materials for development of integrated gas sensors: a comprehensive review. Crit Rev Solid State Mater Sci 29:111–188 Eranna G, Joshi BC, Runthala DP, Gupta RP (2004) Oxide materials for development of integrated gas sensors: a comprehensive review. Crit Rev Solid State Mater Sci 29:111–188
Zurück zum Zitat Fanget S, Hentz S, Puget P, Arcamone J, Matheron M, Colinet E, Andreucci P, Duraffourg L, Ed M, Roukes ML (2011) Gas sensors based on gravimetric detection—a review. Sens Actuators B 160:804–821 Fanget S, Hentz S, Puget P, Arcamone J, Matheron M, Colinet E, Andreucci P, Duraffourg L, Ed M, Roukes ML (2011) Gas sensors based on gravimetric detection—a review. Sens Actuators B 160:804–821
Zurück zum Zitat Fergus JW (2007) Materials for high temperature electrochemical NOx gas sensors. Sens Actuators B 121:652–663 Fergus JW (2007) Materials for high temperature electrochemical NOx gas sensors. Sens Actuators B 121:652–663
Zurück zum Zitat Fergus JW (2008) A review of electrolyte and electrode materials for high temperature electrochemical CO2 and SO2 gas sensors. Sens Actuators B 134:1034–1041 Fergus JW (2008) A review of electrolyte and electrode materials for high temperature electrochemical CO2 and SO2 gas sensors. Sens Actuators B 134:1034–1041
Zurück zum Zitat Fine GF, Cavanagh LM, Afonja A, Binions R (2010) Metal oxide semiconductor gas sensors in environmental monitoring. Sensors 10:5469–5502 Fine GF, Cavanagh LM, Afonja A, Binions R (2010) Metal oxide semiconductor gas sensors in environmental monitoring. Sensors 10:5469–5502
Zurück zum Zitat Fitzgerald FT, Tierney LM Jr (1982) The bedside Sherlock Holmes. West J Med 137:169–175 Fitzgerald FT, Tierney LM Jr (1982) The bedside Sherlock Holmes. West J Med 137:169–175
Zurück zum Zitat Fleet B, Gunasingham H (1992) Electrochemical sensors for monitoring environmental pollutants. Talanta 39:1449–1457 Fleet B, Gunasingham H (1992) Electrochemical sensors for monitoring environmental pollutants. Talanta 39:1449–1457
Zurück zum Zitat Flueckiger J, Ko FK, Cheung KC (2009) Microfabricated formaldehyde gas sensors. Sensors 9:9196–9215 Flueckiger J, Ko FK, Cheung KC (2009) Microfabricated formaldehyde gas sensors. Sensors 9:9196–9215
Zurück zum Zitat Fontes J (2005) Humidity sensors. In: Wilson JS (ed) Sensor technology handbook. Elsevier, Oxford, pp 271–284 Fontes J (2005) Humidity sensors. In: Wilson JS (ed) Sensor technology handbook. Elsevier, Oxford, pp 271–284
Zurück zum Zitat Freund MS, Lewis NS (1995) A chemically diverse conducting polymer-based electronic nose. Proc Natl Acad Sci USA 92:2652–2656 Freund MS, Lewis NS (1995) A chemically diverse conducting polymer-based electronic nose. Proc Natl Acad Sci USA 92:2652–2656
Zurück zum Zitat Gardner JW (1991) Detection of vapours and odours from a multisensor array using pattern recognition: principal component and cluster analysis. Sens Actuators 4:109–115 Gardner JW (1991) Detection of vapours and odours from a multisensor array using pattern recognition: principal component and cluster analysis. Sens Actuators 4:109–115
Zurück zum Zitat Gardner JW, Bartlett PN (1999) Electronic noses. Principles and applications. Oxford University Press, Oxford Gardner JW, Bartlett PN (1999) Electronic noses. Principles and applications. Oxford University Press, Oxford
Zurück zum Zitat Gauglitz G (2005) Direct optical sensors: principles and selected applications. Anal Bioanal Chem 381:141–155 Gauglitz G (2005) Direct optical sensors: principles and selected applications. Anal Bioanal Chem 381:141–155
Zurück zum Zitat Geistlinger H (1993) Electron theory of thin film gas sensors. Sens Actuators B 17:47–60 Geistlinger H (1993) Electron theory of thin film gas sensors. Sens Actuators B 17:47–60
Zurück zum Zitat Geistlinger H (1994) Accumulation layer model for Ga2O3 thin-film gas sensors based on the Volkenstein theory of catalysis. Sens Actuators B 18–19:125–131 Geistlinger H (1994) Accumulation layer model for Ga2O3 thin-film gas sensors based on the Volkenstein theory of catalysis. Sens Actuators B 18–19:125–131
Zurück zum Zitat Goeders KM, Colton JS, Bottomley LA (2008) Microcantilevers: sensing chemical interactions via mechanical motion. Chem Rev 108:522–542 Goeders KM, Colton JS, Bottomley LA (2008) Microcantilevers: sensing chemical interactions via mechanical motion. Chem Rev 108:522–542
Zurück zum Zitat Gopel W (1996) Ultimate limits in the miniaturization of chemical sensors. Sens Actuators A 56:83–102 Gopel W (1996) Ultimate limits in the miniaturization of chemical sensors. Sens Actuators A 56:83–102
Zurück zum Zitat Gopel W, Schierbaum KD (1995) SnO2 sensors: current status and future prospects. Sens Actuators B 26–27:1–12 Gopel W, Schierbaum KD (1995) SnO2 sensors: current status and future prospects. Sens Actuators B 26–27:1–12
Zurück zum Zitat Greenblatt M, Shuk P (1996) Solid-state humidity sensors. Solid State Ionics 86–88:995–1000 Greenblatt M, Shuk P (1996) Solid-state humidity sensors. Solid State Ionics 86–88:995–1000
Zurück zum Zitat Haug M, Schierbaum KD, Gauglitz G, Göpel W (1993) Chemical sensors based upon polysiloxanes: comparison between optical, quartz microbalance, calorimetric, and capacitance sensors. Sens Actuators B 11:383–391 Haug M, Schierbaum KD, Gauglitz G, Göpel W (1993) Chemical sensors based upon polysiloxanes: comparison between optical, quartz microbalance, calorimetric, and capacitance sensors. Sens Actuators B 11:383–391
Zurück zum Zitat Haugen JE, Kvaal K (1998) Electronic nose and artificial neural network. Meat Sci 49:S273–S286 Haugen JE, Kvaal K (1998) Electronic nose and artificial neural network. Meat Sci 49:S273–S286
Zurück zum Zitat Ho CK, Itamura MT, Kelley M, Hughes RC (2001) Review of chemical sensors for in-situ monitoring of volatile contaminants. Sandia Report SAND2001-0643, Unlimited release, Sandia National Laboratories, Albuquerque, NM. http://www.sandia.gov/sensor Ho CK, Itamura MT, Kelley M, Hughes RC (2001) Review of chemical sensors for in-situ monitoring of volatile ­contaminants. Sandia Report SAND2001-0643, Unlimited release, Sandia National Laboratories, Albuquerque, NM. http://​www.​sandia.​gov/​sensor
Zurück zum Zitat Ho CK, Robinson A, Miller DR, Davis MJ (2005) Overview of sensors and needs for environmental monitoring. Sensors 5:4–37 Ho CK, Robinson A, Miller DR, Davis MJ (2005) Overview of sensors and needs for environmental monitoring. Sensors 5:4–37
Zurück zum Zitat Holzinger M, Maier J, Sitte W (1997) Potentiometric detection of complex gases: application to CO2. Solid State Ionics 94:217–225 Holzinger M, Maier J, Sitte W (1997) Potentiometric detection of complex gases: application to CO2. Solid State Ionics 94:217–225
Zurück zum Zitat Hubert T, Boon-Brett L, Black G, Banach U (2011) Hydrogen sensors – a review. Sens Actuators B 157:329–352 Hubert T, Boon-Brett L, Black G, Banach U (2011) Hydrogen sensors – a review. Sens Actuators B 157:329–352
Zurück zum Zitat Hulanicki A, Geab S, Ingman F (1991) Chemical sensors definitions and classification. Pure Appl Chem 63(9):1247–1250 Hulanicki A, Geab S, Ingman F (1991) Chemical sensors definitions and classification. Pure Appl Chem 63(9):1247–1250
Zurück zum Zitat Igarashi I (1986) New technology of sensors for automotive applications. Sens Actuators 10:181–193 Igarashi I (1986) New technology of sensors for automotive applications. Sens Actuators 10:181–193
Zurück zum Zitat Ishihara T, Matsubara S (1998) Capacitive type gas sensors. J Electrocer 2:215–228 Ishihara T, Matsubara S (1998) Capacitive type gas sensors. J Electrocer 2:215–228
Zurück zum Zitat Justino CIL, Rocha-Santos TA, Duarte AC, Rocha-Santos TA (2010) Review of analytical figures of merit of sensors and biosensors in clinical applications. Trends Anal Chem 29(10):1172–1183 Justino CIL, Rocha-Santos TA, Duarte AC, Rocha-Santos TA (2010) Review of analytical figures of merit of sensors and biosensors in clinical applications. Trends Anal Chem 29(10):1172–1183
Zurück zum Zitat Keefe MK, Benkstein KD, Hup JT (2000) Luminescent sensor molecules based on coordinated metals: a review of recent developments. Coord Chem Rev 205(1):201–228 Keefe MK, Benkstein KD, Hup JT (2000) Luminescent sensor molecules based on coordinated metals: a review of recent developments. Coord Chem Rev 205(1):201–228
Zurück zum Zitat Kharitonov SA, Barnes PJ (2000) Clinical aspects of exhaled nitric oxide. Eur Respir J 16:781–792 Kharitonov SA, Barnes PJ (2000) Clinical aspects of exhaled nitric oxide. Eur Respir J 16:781–792
Zurück zum Zitat King WH Jr (1964) Piezoelectric sorption detector. Anal Chem 36:1735–1739 King WH Jr (1964) Piezoelectric sorption detector. Anal Chem 36:1735–1739
Zurück zum Zitat Kohl D, Kelleter J, Petig H (2001) Detection of fires by gas sensors. In: Baltes H, Gopel W, Hesse J (eds) Sensors update, vol 9(1). Wiley-VCH, Weinheim, pp 161–223 Kohl D, Kelleter J, Petig H (2001) Detection of fires by gas sensors. In: Baltes H, Gopel W, Hesse J (eds) Sensors update, vol 9(1). Wiley-VCH, Weinheim, pp 161–223
Zurück zum Zitat Korotcenkov G (2007a) Metal oxides for solid state gas sensors. What determines our choice? Mater Sci Eng B 139:1–23 Korotcenkov G (2007a) Metal oxides for solid state gas sensors. What determines our choice? Mater Sci Eng B 139:1–23
Zurück zum Zitat Korotcenkov G (2007b) Practical aspects in design of one-electrode semiconductor gas sensors: status report. Sens Actuators B 121:664–678 Korotcenkov G (2007b) Practical aspects in design of one-electrode semiconductor gas sensors: status report. Sens Actuators B 121:664–678
Zurück zum Zitat Korotcenkov G (ed) (2010) Chemical sensors: fundamentals of sensor materials, vols 1–3. Momentum Press, New York Korotcenkov G (ed) (2010) Chemical sensors: fundamentals of sensor materials, vols 1–3. Momentum Press, New York
Zurück zum Zitat Korotcenkov G (ed) (2011) Chemical sensors: comprehensive sensor technologies, vol 6, Sensors application. Momentum Press, New York Korotcenkov G (ed) (2011) Chemical sensors: comprehensive sensor technologies, vol 6, Sensors application. Momentum Press, New York
Zurück zum Zitat Korotcenkov G, Cho BK (2010) Porous semiconductors: advanced material for gas sensor applications. Crit Rev Solid State Mater Sci 35(1):1–37 Korotcenkov G, Cho BK (2010) Porous semiconductors: advanced material for gas sensor applications. Crit Rev Solid State Mater Sci 35(1):1–37
Zurück zum Zitat Korotcenkov G, Cho BK (2011) Chemical sensor selection and application guide. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 6, Sensors application. Momentum Press, New York, pp 281–348 Korotcenkov G, Cho BK (2011) Chemical sensor selection and application guide. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 6, Sensors application. Momentum Press, New York, pp 281–348
Zurück zum Zitat Korotcenkov G, Cho BK (2012) Ozone measuring: what can limit the application of SnO2-based gas sensors? Sens Actuators B 161:28–44 Korotcenkov G, Cho BK (2012) Ozone measuring: what can limit the application of SnO2-based gas sensors? Sens Actuators B 161:28–44
Zurück zum Zitat Korotcenkov G, Han S-D, Stetter JR (2009) Review of electrochemical hydrogen sensors. Chem Rev 109(3): 1402–1433 Korotcenkov G, Han S-D, Stetter JR (2009) Review of electrochemical hydrogen sensors. Chem Rev 109(3): 1402–1433
Zurück zum Zitat Korotcenkov G, Cho BK, Narayanaswamy R, Sevilla F III (2011) Optical and fiber optic chemical sensors. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 5, Electrochemical and optical sensors. Momentum Press, New York, pp 311–476 Korotcenkov G, Cho BK, Narayanaswamy R, Sevilla F III (2011) Optical and fiber optic chemical sensors. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 5, Electrochemical and optical sensors. Momentum Press, New York, pp 311–476
Zurück zum Zitat Korotcenkov G, Stetter JR (2011) Chemical gas mixture analysis and the electronic nose: current status, future trends. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 6, Chemical sensors applications. Momentum, New York, pp 1–56 Korotcenkov G, Stetter JR (2011) Chemical gas mixture analysis and the electronic nose: current status, future trends. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 6, Chemical sensors applications. Momentum, New York, pp 1–56
Zurück zum Zitat Kowaiski BR, Bender CF (1972) Pattern recognition: a powerful approach to interpreting chemical data. J Am Chem Soc 94:5632–5639 Kowaiski BR, Bender CF (1972) Pattern recognition: a powerful approach to interpreting chemical data. J Am Chem Soc 94:5632–5639
Zurück zum Zitat Krol S, Zabiegata B, Namiesnik J (2010) Monitoring VOCs in atmospheric air. I. On-line gas analyzers. Trends Anal Chem 29(9):1092–1100 Krol S, Zabiegata B, Namiesnik J (2010) Monitoring VOCs in atmospheric air. I. On-line gas analyzers. Trends Anal Chem 29(9):1092–1100
Zurück zum Zitat Kummer AM, Hierlemann A, Baltes H (2004) Tuning sensitivity and selectivity of complementary metal oxide semiconductor-based capacitive chemical microsensors. Anal Chem 76:2470–2477 Kummer AM, Hierlemann A, Baltes H (2004) Tuning sensitivity and selectivity of complementary metal oxide ­semiconductor-based capacitive chemical microsensors. Anal Chem 76:2470–2477
Zurück zum Zitat Lakowicz JR (1999) Principles of fluorescence spectroscopy, 2nd edn. Kluwer Academic/Plenum, New York Lakowicz JR (1999) Principles of fluorescence spectroscopy, 2nd edn. Kluwer Academic/Plenum, New York
Zurück zum Zitat Lambeck PV (1992) Integrated opto-chemical sensors. Sens Actuators B 8:103–116 Lambeck PV (1992) Integrated opto-chemical sensors. Sens Actuators B 8:103–116
Zurück zum Zitat Lee J-H (2003) Review on zirconia air-fuel ratio sensors for automotive applications. J Mater Sci 38:4247–4257 Lee J-H (2003) Review on zirconia air-fuel ratio sensors for automotive applications. J Mater Sci 38:4247–4257
Zurück zum Zitat Lee J-H, Tsai C-L, Fann C-S, Wang S-H (2002) Design of an acousto-magnetic oxygen sensor. J Med Biol Eng 22(4):193–198 Lee J-H, Tsai C-L, Fann C-S, Wang S-H (2002) Design of an acousto-magnetic oxygen sensor. J Med Biol Eng 22(4):193–198
Zurück zum Zitat Leiner MJP (1991) Luminescence chemical sensors for biomedical applications: scope and limitations. Anal Chim Acta 255:209–222 Leiner MJP (1991) Luminescence chemical sensors for biomedical applications: scope and limitations. Anal Chim Acta 255:209–222
Zurück zum Zitat Lim SH, Jaworski J, Satyanarayana S, Wang F, Raorane D, Lee S-W, Majumdar A (2007) Nanomechanical chemical sensor platform. In: Proceedings of the 2nd IEEE international conference on nano/micro engineered and molecular systems, Bangkok, 16–19 Jan, pp 886–889 Lim SH, Jaworski J, Satyanarayana S, Wang F, Raorane D, Lee S-W, Majumdar A (2007) Nanomechanical chemical sensor platform. In: Proceedings of the 2nd IEEE international conference on nano/micro engineered and molecular systems, Bangkok, 16–19 Jan, pp 886–889
Zurück zum Zitat Lippitsch ME, Pusterhofer J, Leiner MJP, Wolfbeis OS (1988) Fiber-optic oxygen sensor with the fluorescence decay time as the information carrier. Anal Chim Acta 205:1–6 Lippitsch ME, Pusterhofer J, Leiner MJP, Wolfbeis OS (1988) Fiber-optic oxygen sensor with the fluorescence decay time as the information carrier. Anal Chim Acta 205:1–6
Zurück zum Zitat Lu G, Miura N, Yamazoe N (1996) High-temperature hydrogen sensor based on stabilized zirconia and a metal oxide electrode. Sens Actuators B 35–36:130–135 Lu G, Miura N, Yamazoe N (1996) High-temperature hydrogen sensor based on stabilized zirconia and a metal oxide electrode. Sens Actuators B 35–36:130–135
Zurück zum Zitat Lundström I (1991) Field effect chemical sensors. In: Gopel W, Hesse J, Zemel JN (eds) Sensors: a comprehensive survey, vol 1. VCH, Weinheim, pp 467–529 Lundström I (1991) Field effect chemical sensors. In: Gopel W, Hesse J, Zemel JN (eds) Sensors: a comprehensive survey, vol 1. VCH, Weinheim, pp 467–529
Zurück zum Zitat Lundstrom I, Sundgren H, Winquist F, Eriksson M, Krantz-Rulcker C, Lloyd-Spetz A (2007) Twenty-five years of field effect gas sensor research in Linkoping. Sens Actuators B 121:247–262 Lundstrom I, Sundgren H, Winquist F, Eriksson M, Krantz-Rulcker C, Lloyd-Spetz A (2007) Twenty-five years of field effect gas sensor research in Linkoping. Sens Actuators B 121:247–262
Zurück zum Zitat Marczin N, Kharitonov SA, Yacoub MH, Barnes PJ (eds) (2005) Disease markers in exhaled breath. Taylor and Francis, Oxford Marczin N, Kharitonov SA, Yacoub MH, Barnes PJ (eds) (2005) Disease markers in exhaled breath. Taylor and Francis, Oxford
Zurück zum Zitat Maricq MM (2007) Chemical characterization of particulate emissions from diesel engines: a review. J Aerosol Sci 38(11):1079–1118 Maricq MM (2007) Chemical characterization of particulate emissions from diesel engines: a review. J Aerosol Sci 38(11):1079–1118
Zurück zum Zitat Maskell WC (1987) Inorganic solid state chemically sensitive devices: electrochemical oxygen gas sensors. J Phys E: Sci Instrum 20:1156–1168 Maskell WC (1987) Inorganic solid state chemically sensitive devices: electrochemical oxygen gas sensors. J Phys E: Sci Instrum 20:1156–1168
Zurück zum Zitat Massie C, Stewart G, McGregor G, Gilchrist JR (2006) Design of a portable optical sensor for methane gas detection. Sens Actuators B 113:830–836 Massie C, Stewart G, McGregor G, Gilchrist JR (2006) Design of a portable optical sensor for methane gas detection. Sens Actuators B 113:830–836
Zurück zum Zitat Mayer KM, Hafner JH (2011) Localized surface plasmon resonance sensors. Chem Rev 111:3828–3857 Mayer KM, Hafner JH (2011) Localized surface plasmon resonance sensors. Chem Rev 111:3828–3857
Zurück zum Zitat Mello LD, Kubota LT (2002) Review of the use of biosensors as analytical tools in the food and drink industries. Food Chem 77(2):237–256 Mello LD, Kubota LT (2002) Review of the use of biosensors as analytical tools in the food and drink industries. Food Chem 77(2):237–256
Zurück zum Zitat Ménil F, Coillard V, Lucat C (2000) Critical review of nitrogen monoxide sensors for exhaust gases of lean burn engines. Sens Actuators B 67:1–23 Ménil F, Coillard V, Lucat C (2000) Critical review of nitrogen monoxide sensors for exhaust gases of lean burn engines. Sens Actuators B 67:1–23
Zurück zum Zitat Merilainen PT (1990) A differential paramagnetic sensor for breath-by-breath oximetry. J Clin Monit 6(1):65–73 Merilainen PT (1990) A differential paramagnetic sensor for breath-by-breath oximetry. J Clin Monit 6(1):65–73
Zurück zum Zitat Messer H, Zinevich A, Alpert P (2006) Environmental monitoring by wireless communication networks. Science 312:713 Messer H, Zinevich A, Alpert P (2006) Environmental monitoring by wireless communication networks. Science 312:713
Zurück zum Zitat Miller JB (2001) Catalytic sensors for monitoring explosive atmospheres. IEEE Sensors J 1(1):88–93 Miller JB (2001) Catalytic sensors for monitoring explosive atmospheres. IEEE Sensors J 1(1):88–93
Zurück zum Zitat Miura N, Ono M, Shimanzoe K, Yamazoe N (1998a) A compact solid-state amperometric sensor for detection of NO2 in ppb range. Sens Actuators B 49:101–109 Miura N, Ono M, Shimanzoe K, Yamazoe N (1998a) A compact solid-state amperometric sensor for detection of NO2 in ppb range. Sens Actuators B 49:101–109
Zurück zum Zitat Miura N, Raisen T, Lu G, Yamazoe N (1998b) Highly selective CO sensor using stabilized zirconia and a couple of oxide electrodes. Sens Actuators B 47:84–91 Miura N, Raisen T, Lu G, Yamazoe N (1998b) Highly selective CO sensor using stabilized zirconia and a couple of oxide electrodes. Sens Actuators B 47:84–91
Zurück zum Zitat Monkman G (2000) Monomolecular Langmuir-Blodgett films—tomorrow’s sensors? Sensor Rev 20:127–131 Monkman G (2000) Monomolecular Langmuir-Blodgett films—tomorrow’s sensors? Sensor Rev 20:127–131
Zurück zum Zitat Morrison SR (1987) Mechanism of semiconductor gas sensor operation. Sens Actuators 11:283–287 Morrison SR (1987) Mechanism of semiconductor gas sensor operation. Sens Actuators 11:283–287
Zurück zum Zitat Moseley PT, Norris JOW, Williams DE (eds) (1991) Techniques and mechanisms in gas sensing. Adam Hilger, Bristol Moseley PT, Norris JOW, Williams DE (eds) (1991) Techniques and mechanisms in gas sensing. Adam Hilger, Bristol
Zurück zum Zitat Moskalenko KL, Nadezhdinskii AI, Adamovskaya IA (1996) Human breath trace gas content study by tuneable diode laser spectroscopy. Infrared Phys Technol 37:181–192 Moskalenko KL, Nadezhdinskii AI, Adamovskaya IA (1996) Human breath trace gas content study by tuneable diode laser spectroscopy. Infrared Phys Technol 37:181–192
Zurück zum Zitat Muñoz R, Sivret EC, Parcsi G, Lebrero R, Wang X, Suffet IH, Stuetz RM (2010) Monitoring techniques for odour abatement assessment. Water Res 44(18):5129–5149 Muñoz R, Sivret EC, Parcsi G, Lebrero R, Wang X, Suffet IH, Stuetz RM (2010) Monitoring techniques for odour abatement assessment. Water Res 44(18):5129–5149
Zurück zum Zitat Nakahara T (2004) Development of gas sensors and cultivation of new markets for air quality. In: Proceedings of the 38th chemical sensor symposium, Tokyo, 24–26 Mar, pp 73–75 Nakahara T (2004) Development of gas sensors and cultivation of new markets for air quality. In: Proceedings of the 38th chemical sensor symposium, Tokyo, 24–26 Mar, pp 73–75
Zurück zum Zitat Narayanaswamy R, Wolfbeis OS (eds) (2004) Optical sensors—industrial, environmental and diagnostic applications, vol 1, Chemical sensors and biosensors. Springer, Berlin Narayanaswamy R, Wolfbeis OS (eds) (2004) Optical sensors—industrial, environmental and diagnostic applications, vol 1, Chemical sensors and biosensors. Springer, Berlin
Zurück zum Zitat Neethirajan S, Jayas DS, Sadistap S (2009) Carbon dioxide (CO2) sensors for the agri-food industry—a review. Food Bioprocess Technol 2:115–121 Neethirajan S, Jayas DS, Sadistap S (2009) Carbon dioxide (CO2) sensors for the agri-food industrya review. Food Bioprocess Technol 2:115–121
Zurück zum Zitat NFPA (2003) Operation of fire protection systems. National Fire Protection Association, Quincy, MA NFPA (2003) Operation of fire protection systems. National Fire Protection Association, Quincy, MA
Zurück zum Zitat Pandey SK, Kim K-H, Tang K-T (2012) A review of sensor-based methods for monitoring hydrogen sulfide. Trends Anal Chem 32:87–99 Pandey SK, Kim K-H, Tang K-T (2012) A review of sensor-based methods for monitoring hydrogen sulfide. Trends Anal Chem 32:87–99
Zurück zum Zitat Parrish DD, Fehsenfel FC (2000) Methods for gas-phase measurements of ozone, ozone precursors and aerosol precursors. Atmos Environ 34(12–14):1921–1957 Parrish DD, Fehsenfel FC (2000) Methods for gas-phase measurements of ozone, ozone precursors and aerosol ­precursors. Atmos Environ 34(12–14):1921–1957
Zurück zum Zitat Patel PD (2002) Biosensors for measurement of analytes implicated in food safety: a review. Trends Anal Chem 21(2):96–115 Patel PD (2002) Biosensors for measurement of analytes implicated in food safety: a review. Trends Anal Chem 21(2):96–115
Zurück zum Zitat Pedersen LD (1991) Assessment of sensors used in the food industry. Food Control 2(2):87–98 Pedersen LD (1991) Assessment of sensors used in the food industry. Food Control 2(2):87–98
Zurück zum Zitat Pejcic D, Eadington P, Ross A (2007) Environmental monitoring of hydrocarbons: a chemical sensor perspective. Environ Sci Technol 41(18):6333–6342 Pejcic D, Eadington P, Ross A (2007) Environmental monitoring of hydrocarbons: a chemical sensor perspective. Environ Sci Technol 41(18):6333–6342
Zurück zum Zitat Peng G, Trock E, Haick H (2008) Detecting simulated patterns of lung cancer biomarkers by random network of single-walled carbon nanotubes coated with nonpolymeric organic materials. Nano Lett 8:3631–3636 Peng G, Trock E, Haick H (2008) Detecting simulated patterns of lung cancer biomarkers by random network of single-walled carbon nanotubes coated with nonpolymeric organic materials. Nano Lett 8:3631–3636
Zurück zum Zitat Pletcher D, Evans J, Warburton PR, Gibbs TK (1991) Acidic gas sensors and method of using the same. US Patent 5,071,526 Pletcher D, Evans J, Warburton PR, Gibbs TK (1991) Acidic gas sensors and method of using the same. US Patent 5,071,526
Zurück zum Zitat Potje-Kamloth K (2008) Semiconductor junction gas sensors. Chem Rev 108:367–399 Potje-Kamloth K (2008) Semiconductor junction gas sensors. Chem Rev 108:367–399
Zurück zum Zitat Potyrailo RA, Mirsky VM (2008) Combinatorial and high-throughput development of sensing materials: the first 10 years. Chem Rev B 108:770–813 Potyrailo RA, Mirsky VM (2008) Combinatorial and high-throughput development of sensing materials: the first 10 years. Chem Rev B 108:770–813
Zurück zum Zitat Potyrailo RA, Surman C, Nagraj N, Burns A (2011) Materials and transducers toward selective wireless gas sensing. Chem Rev 111:7315–7354 Potyrailo RA, Surman C, Nagraj N, Burns A (2011) Materials and transducers toward selective wireless gas sensing. Chem Rev 111:7315–7354
Zurück zum Zitat Ramamoorthy R, Dutta PK, Akbar SA (2003) Oxygen sensors: materials, methods, designs and applications. J Mater Sci 38:4271–4282 Ramamoorthy R, Dutta PK, Akbar SA (2003) Oxygen sensors: materials, methods, designs and applications. J Mater Sci 38:4271–4282
Zurück zum Zitat Riegel J, Neumann H, Wiedenmann N-M (2002) Exhaust gas sensors for automotive emission control. Solid State Ionics 152–153:783–800 Riegel J, Neumann H, Wiedenmann N-M (2002) Exhaust gas sensors for automotive emission control. Solid State Ionics 152–153:783–800
Zurück zum Zitat Rittersma ZM (2002) Recent achievements in miniaturised humidity sensors—a review of transduction techniques. Sens Actuators A 96:196–210 Rittersma ZM (2002) Recent achievements in miniaturised humidity sensors—a review of transduction techniques. Sens Actuators A 96:196–210
Zurück zum Zitat Rock F, Barsan N, Weimar U (2008) Electronic nose: current status and future trends. Chem Rev 108:705–725 Rock F, Barsan N, Weimar U (2008) Electronic nose: current status and future trends. Chem Rev 108:705–725
Zurück zum Zitat Sadaoka Y (1992) Organic semiconductor gas sensors. In: Sberveglieri G (ed) Gas sensors. Kluwer Academic, Dordrecht, pp 187–218 Sadaoka Y (1992) Organic semiconductor gas sensors. In: Sberveglieri G (ed) Gas sensors. Kluwer Academic, Dordrecht, pp 187–218
Zurück zum Zitat Sauerbrey G (1959) Verwendung von Schwingquarzen zur Wagung dunner Schichten und zur Mikrowagung. Z Physik 155:206–212 Sauerbrey G (1959) Verwendung von Schwingquarzen zur Wagung dunner Schichten und zur Mikrowagung. Z Physik 155:206–212
Zurück zum Zitat Sazhin SG, Soborover EI, Tokarev SV (2003) Sensor methods of ammonia inspection. Russ J Nondestruct Test 39(10):791–806 Sazhin SG, Soborover EI, Tokarev SV (2003) Sensor methods of ammonia inspection. Russ J Nondestruct Test 39(10):791–806
Zurück zum Zitat Schreiter M, Gabl R, Lerchner J, Hohlfeld C, Delan A, Wolf G, Bluher A, Katzschner B, Mertig M, Pompe W (2006) Functionalized pyroelectric sensors for gas detection. Sens Actuators B 119:255–261 Schreiter M, Gabl R, Lerchner J, Hohlfeld C, Delan A, Wolf G, Bluher A, Katzschner B, Mertig M, Pompe W (2006) Functionalized pyroelectric sensors for gas detection. Sens Actuators B 119:255–261
Zurück zum Zitat Semancik S (2001) Microhotplate platform for chemical sensors research. Sens Actuators B 77:579–591 Semancik S (2001) Microhotplate platform for chemical sensors research. Sens Actuators B 77:579–591
Zurück zum Zitat Shemshad J, Aminossadati SM, Kizil MS (2012) A review of developments in near infrared methane detection based on tunable diode laser. Sens Actuators B 171–172:77–92 Shemshad J, Aminossadati SM, Kizil MS (2012) A review of developments in near infrared methane detection based on tunable diode laser. Sens Actuators B 171–172:77–92
Zurück zum Zitat Shin W, Tajima K, Choi Y, Nishibori M, Izu N, Matsubara I, Murayama N (2006) Micro-thermoelectric devices with ceramic combustors. Sens Actuators A 130–131:411–418 Shin W, Tajima K, Choi Y, Nishibori M, Izu N, Matsubara I, Murayama N (2006) Micro-thermoelectric devices with ceramic combustors. Sens Actuators A 130–131:411–418
Zurück zum Zitat Shin W, Nishibori M, Matsubara I (2011) Gas sensors using pyroelectric and thermoelectric effects. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 4, Solid-state devices. Momentum Press, New York, pp 261–319 Shin W, Nishibori M, Matsubara I (2011) Gas sensors using pyroelectric and thermoelectric effects. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 4, Solid-state devices. Momentum Press, New York, pp 261–319
Zurück zum Zitat Silva SF, Coelho L, Frazão O, Santos JL, Malcata FX (2012) A review of palladium-based fiber-optic sensors for molecular hydrogen detection. IEEE Sensors J 12(1):93–102 Silva SF, Coelho L, Frazão O, Santos JL, Malcata FX (2012) A review of palladium-based fiber-optic sensors for molecular hydrogen detection. IEEE Sensors J 12(1):93–102
Zurück zum Zitat Singh S (2007) Sensors—an effective approach for the detection of explosives. J Hazard Mater 144:15–28 Singh S (2007) Sensors—an effective approach for the detection of explosives. J Hazard Mater 144:15–28
Zurück zum Zitat Smith D, Spanel P, Davies S (1999) Trace gases in breath of healthy volunteers when fasting and after a protein-calorie meal: a preliminary study. J Appl Physiol 87:1584–1588 Smith D, Spanel P, Davies S (1999) Trace gases in breath of healthy volunteers when fasting and after a protein-calorie meal: a preliminary study. J Appl Physiol 87:1584–1588
Zurück zum Zitat Stetter JR, Penrose WR, Yao S (2003) Sensors, chemical sensors, electrochemical sensors, and ECS. J Electrochem Soc 150(2):S11–S16 Stetter JR, Penrose WR, Yao S (2003) Sensors, chemical sensors, electrochemical sensors, and ECS. J Electrochem Soc 150(2):S11–S16
Zurück zum Zitat Stetter JR, Korotcenkov G, Zeng X, Tang Y, Liu Y (2011) Electrochemical gas sensors: fundamentals, fabrication and parameters. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 3, Electrochemical and optical sensors. Momentum Press, New York, pp 1–123 Stetter JR, Korotcenkov G, Zeng X, Tang Y, Liu Y (2011) Electrochemical gas sensors: fundamentals, fabrication and parameters. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 3, Electrochemical and optical sensors. Momentum Press, New York, pp 1–123
Zurück zum Zitat Suzuki S, Noda Y, Sawaki N (1999) Market overview: oxygen sensors. In: Baltes H, Gopel W, Hesse J (eds) Sensors update, vol 6(1). Wiley-VCH, Weinheim, pp 381–396 Suzuki S, Noda Y, Sawaki N (1999) Market overview: oxygen sensors. In: Baltes H, Gopel W, Hesse J (eds) Sensors update, vol 6(1). Wiley-VCH, Weinheim, pp 381–396
Zurück zum Zitat Symons EA (1992) Catalytic gas sensors. In: Sberveglieri G (ed) Gas sensors. Kluwer, Dordrecht, pp 169–185 Symons EA (1992) Catalytic gas sensors. In: Sberveglieri G (ed) Gas sensors. Kluwer, Dordrecht, pp 169–185
Zurück zum Zitat Talazac L, Brunet J, Battut V, Blanc JP, Pauly A, Germain JP, Pellier S, Soulier C (2001) Air quality evaluation by monolithic InP-based resistive sensors. Sens Actuators B 76:258–264 Talazac L, Brunet J, Battut V, Blanc JP, Pauly A, Germain JP, Pellier S, Soulier C (2001) Air quality evaluation by monolithic InP-based resistive sensors. Sens Actuators B 76:258–264
Zurück zum Zitat Taylor RF (1996) Chemical and biological sensors: markets and commercialization. In: Taylor RF, Schultz JS (eds) Handbook of chemical sensors and biosensors. IOP Publishing, Bristol Taylor RF (1996) Chemical and biological sensors: markets and commercialization. In: Taylor RF, Schultz JS (eds) Handbook of chemical sensors and biosensors. IOP Publishing, Bristol
Zurück zum Zitat Taylor RF, Schultz JS (eds) (1996) Handbook of chemical sensors and biosensors. IOP Publishing, Bristol Taylor RF, Schultz JS (eds) (1996) Handbook of chemical sensors and biosensors. IOP Publishing, Bristol
Zurück zum Zitat Timmer B, Olthuis W, van den Berg A (2005) Ammonia sensors and their applications—a review. Sens Actuators B 107:666–677 Timmer B, Olthuis W, van den Berg A (2005) Ammonia sensors and their applications—a review. Sens Actuators B 107:666–677
Zurück zum Zitat Traversa E (1995) Ceramic sensors for humidity detection: the state-of-the-art and future developments. Sens Actuators B 23:135–156 Traversa E (1995) Ceramic sensors for humidity detection: the state-of-the-art and future developments. Sens Actuators B 23:135–156
Zurück zum Zitat Trinchi A, Woldarski W, Li YX (2004) Hydrogen sensitive Ga2O3 Schottky diode sensor based on SiC. Sens Actuators B 100:94–98 Trinchi A, Woldarski W, Li YX (2004) Hydrogen sensitive Ga2O3 Schottky diode sensor based on SiC. Sens Actuators B 100:94–98
Zurück zum Zitat Valeur B, Brochon JC (eds) (2001) New trends in fluorescence spectroscopy: applications to chemical and life sciences. Springer, Berlin Valeur B, Brochon JC (eds) (2001) New trends in fluorescence spectroscopy: applications to chemical and life sciences. Springer, Berlin
Zurück zum Zitat Vashist SK, Korotcenkov G (2011) Microcantilever-based chemical sensors. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 3, Solid state devices. Momentum Press, New York, pp 321–376 Vashist SK, Korotcenkov G (2011) Microcantilever-based chemical sensors. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 3, Solid state devices. Momentum Press, New York, pp 321–376
Zurück zum Zitat Voinova M, Jonson M (2011) The quartz crystal microbalance. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 3, Solid state devices. Momentum Press, New York, pp 377–483 Voinova M, Jonson M (2011) The quartz crystal microbalance. In: Korotcenkov G (ed) Chemical sensors: comprehensive sensor technologies, vol 3, Solid state devices. Momentum Press, New York, pp 377–483
Zurück zum Zitat Warburton PR, Pagano MP, Hoover R, Logman M, Crytzer K, Warburton YJ (1998) Amperometric gas sensor response times. Anal Chem 70(5):998–1006 Warburton PR, Pagano MP, Hoover R, Logman M, Crytzer K, Warburton YJ (1998) Amperometric gas sensor response times. Anal Chem 70(5):998–1006
Zurück zum Zitat Ward JPT (2008) Oxygen sensors in context. Biochim Biophys Acta Bioenerg 1777(1):1–14 Ward JPT (2008) Oxygen sensors in context. Biochim Biophys Acta Bioenerg 1777(1):1–14
Zurück zum Zitat Werle P, Slemr F, Maurer K, Kormann R, Mucke R, Janker B (2002) Near-and mid-infrared laser-optical sensors for gas analysis. Opt Lasers Eng 37:101–1114 Werle P, Slemr F, Maurer K, Kormann R, Mucke R, Janker B (2002) Near-and mid-infrared laser-optical sensors for gas analysis. Opt Lasers Eng 37:101–1114
Zurück zum Zitat White LT (2000) Hazardous gas monitoring: a guide for semiconductor and other hazardous occupancies. Noyes/William Andrew, Norwich, NY White LT (2000) Hazardous gas monitoring: a guide for semiconductor and other hazardous occupancies. Noyes/William Andrew, Norwich, NY
Zurück zum Zitat White RM, Voltmer FW (1965) Direct piezoelectric coupling to surface elastic waves. Appl Phys Lett 7:314–315 White RM, Voltmer FW (1965) Direct piezoelectric coupling to surface elastic waves. Appl Phys Lett 7:314–315
Zurück zum Zitat Wilson AD, Baietto M (2009) Applications and advances in electronic-nose technologies. Sensors 9:5099–5148 Wilson AD, Baietto M (2009) Applications and advances in electronic-nose technologies. Sensors 9:5099–5148
Zurück zum Zitat Wilson AD, Baietto M (2011) Advances in electronic-nose technologies developed for biomedical applications. Sensors 11:1105–1176 Wilson AD, Baietto M (2011) Advances in electronic-nose technologies developed for biomedical applications. Sensors 11:1105–1176
Zurück zum Zitat Wilson DM, Hoyt S, Janata J, Booksh K, Obando L (2001) Chemical sensors for portable, handheld field instruments. IEEE Sensors J 1:256–274 Wilson DM, Hoyt S, Janata J, Booksh K, Obando L (2001) Chemical sensors for portable, handheld field instruments. IEEE Sensors J 1:256–274
Zurück zum Zitat Wohltjen H, Barger WR, Snow AW, Jarvis NL (1985) A vapor-sensitive chemiresistor fabricated with planar microelectrodes and a Langmuir-Blodgett organic semiconductor film. IEEE Trans Electron Dev ED-32:1170–1174 Wohltjen H, Barger WR, Snow AW, Jarvis NL (1985) A vapor-sensitive chemiresistor fabricated with planar microelectrodes and a Langmuir-Blodgett organic semiconductor film. IEEE Trans Electron Dev ED-32:1170–1174
Zurück zum Zitat Wolfbeis OS (1991) Fiber optic chemical sensors and biosensors, vol 1. CRC, Boca Raton, FL Wolfbeis OS (1991) Fiber optic chemical sensors and biosensors, vol 1. CRC, Boca Raton, FL
Zurück zum Zitat Wolfbeis OS (1992) Fiber optic chemical sensors and biosensors, vol 2. CRC, Boca Raton, FL Wolfbeis OS (1992) Fiber optic chemical sensors and biosensors, vol 2. CRC, Boca Raton, FL
Zurück zum Zitat Wolfbeis OS (2005) Materials for fluorescence-based optical chemical sensors. J Mater Chem 15:2657–2669 Wolfbeis OS (2005) Materials for fluorescence-based optical chemical sensors. J Mater Chem 15:2657–2669
Zurück zum Zitat Wollenstein J, Plaza JA, Canè C, Min Y, Bottner H, Tuller HL (2003) A novel single chip thin film metal oxide array. Sens Actuators B 93:350–355 Wollenstein J, Plaza JA, Canè C, Min Y, Bottner H, Tuller HL (2003) A novel single chip thin film metal oxide array. Sens Actuators B 93:350–355
Zurück zum Zitat Yakovlev YP, Baranov AN, Imenkov AN, Mikhailova MP (1991) Optoelectronic LED-photodiode pairs for moisture and gas sensors in spectral range 1.8–4.8 μm. In: Wolfbeis S (ed) Chemical and medical sensors. Proc SPIE 1510:170–177 Yakovlev YP, Baranov AN, Imenkov AN, Mikhailova MP (1991) Optoelectronic LED-photodiode pairs for moisture and gas sensors in spectral range 1.8–4.8 μm. In: Wolfbeis S (ed) Chemical and medical sensors. Proc SPIE 1510:170–177
Zurück zum Zitat Yamazoe N (2005) Toward innovations of gas sensor technology. Sens Actuators B 108:2–14 Yamazoe N (2005) Toward innovations of gas sensor technology. Sens Actuators B 108:2–14
Zurück zum Zitat Yamazoe N, Miura N (1994) Environmental gas sensing. Sens Actuators B 20:95–102 Yamazoe N, Miura N (1994) Environmental gas sensing. Sens Actuators B 20:95–102
Zurück zum Zitat Yamazoe N, Miura N (1996) Prospect and problems of solid electrolyte-based oxygenic gas sensors. Solid State Ionics 86–88:987–993 Yamazoe N, Miura N (1996) Prospect and problems of solid electrolyte-based oxygenic gas sensors. Solid State Ionics 86–88:987–993
Zurück zum Zitat Yamazoe N, Suematsu K, Shimanoe K (2012) Extension of receptor function theory to include two types of adsorbed oxygen for oxide semiconductor gas sensors. Sens Actuators B 163:128–135 Yamazoe N, Suematsu K, Shimanoe K (2012) Extension of receptor function theory to include two types of adsorbed oxygen for oxide semiconductor gas sensors. Sens Actuators B 163:128–135
Zurück zum Zitat Yeo TL, Sun T, Grattan KTV (2008) Fibre-optic sensor technologies for humidity and moisture measurement. Sens Actuators A 144:280–295 Yeo TL, Sun T, Grattan KTV (2008) Fibre-optic sensor technologies for humidity and moisture measurement. Sens Actuators A 144:280–295
Zurück zum Zitat Zemel J (1988) Theoretical description of gas film interaction on SnO x . Thin Solid Films 163:89–195 Zemel J (1988) Theoretical description of gas film interaction on SnO x . Thin Solid Films 163:89–195
Zurück zum Zitat Zhang H, Pang W, Kim ES, Yu H (2010) Micromachined silicon and polymer probes integrated with film-bulkacoustic-resonator mass sensors. J Micromech Microeng 20:125008 Zhang H, Pang W, Kim ES, Yu H (2010) Micromachined silicon and polymer probes integrated with film-bulkacoustic-resonator mass sensors. J Micromech Microeng 20:125008
Zurück zum Zitat Zosel J, Oelßner W, Decker M, Gerlach G, Guth U (2011) The measurement of dissolved and gaseous carbon dioxide concentration. Meas Sci Technol 22:072001 Zosel J, Oelßner W, Decker M, Gerlach G, Guth U (2011) The measurement of dissolved and gaseous carbon dioxide concentration. Meas Sci Technol 22:072001
Metadaten
Titel
Introduction
verfasst von
Ghenadii Korotcenkov
Copyright-Jahr
2013
Verlag
Springer New York
DOI
https://doi.org/10.1007/978-1-4614-7165-3_1

    Marktübersichten

    Die im Laufe eines Jahres in der „adhäsion“ veröffentlichten Marktübersichten helfen Anwendern verschiedenster Branchen, sich einen gezielten Überblick über Lieferantenangebote zu verschaffen.