Detection of volatile organic compounds using a polythiophene derivative

Conjugated polymers have been subject of great interest in the recent literature from both fundamental point of view and applied science perspective. Among the several types of conjugated polymers used in recent investigations, polythiophene and its derivatives have attracted considerable attention...

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Published in	Physica status solidi. A, Applications and materials science Vol. 207; no. 7; pp. 1756 - 1759
Main Authors	Gonçalves, V. C., Nunes, B. M., Balogh, D. T., Olivati, C. A.
Format	Journal Article Conference Proceeding
Language	English
Published	Berlin WILEY-VCH Verlag 01.07.2010 WILEY‐VCH Verlag Wiley-VCH
Subjects	Analytical chemistry Chemistry conjugated polymers electrical properties Exact sciences and technology General, instrumentation sensors Spectrometric and optical methods Conjugated polymer Absorption spectrometry Volatile organic compound Thiophene derivative polymer Gas detector Photoluminescence
Online Access	Get full text
ISSN	1862-6300 1862-6319
DOI	10.1002/pssa.200983723

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Abstract	Conjugated polymers have been subject of great interest in the recent literature from both fundamental point of view and applied science perspective. Among the several types of conjugated polymers used in recent investigations, polythiophene and its derivatives have attracted considerable attention over the past 20 years due to their high mobility and other remarkable solid‐state properties. They have potential applications in many fields, such as microelectronic devices, catalysts, organic field‐effect transistors, chemical sensors, and biosensors. They have been studied as gas and volatile organic compounds (VOCs) sensors using different principles or transduction techniques, such as optical absorption, conductivity, and capacitance measurements. In this work, we report on the fabrication of gas sensors based on a conducting polymer on an interdigitated gold electrode. We use as active layer of the sensor a polythiophene derivative: poly (3‐hexylthiophene) (P3HT) and analyzed its conductivity as response for exposure to dynamic flow of saturated vapors of six VOCs [n‐hexane, toluene, chloroform, dichloromethane, methanol, and tetrahydrofuran (THF)]. Different responses were obtained upon exposure to all VOCs, THF gave the higher response while methanol the lower response. The influence of moisture on the measurements was also evaluated.
AbstractList	Conjugated polymers have been subject of great interest in the recent literature from both fundamental point of view and applied science perspective. Among the several types of conjugated polymers used in recent investigations, polythiophene and its derivatives have attracted considerable attention over the past 20 years due to their high mobility and other remarkable solid‐state properties. They have potential applications in many fields, such as microelectronic devices, catalysts, organic field‐effect transistors, chemical sensors, and biosensors. They have been studied as gas and volatile organic compounds (VOCs) sensors using different principles or transduction techniques, such as optical absorption, conductivity, and capacitance measurements. In this work, we report on the fabrication of gas sensors based on a conducting polymer on an interdigitated gold electrode. We use as active layer of the sensor a polythiophene derivative: poly (3‐hexylthiophene) (P3HT) and analyzed its conductivity as response for exposure to dynamic flow of saturated vapors of six VOCs [ n ‐hexane, toluene, chloroform, dichloromethane, methanol, and tetrahydrofuran (THF)]. Different responses were obtained upon exposure to all VOCs, THF gave the higher response while methanol the lower response. The influence of moisture on the measurements was also evaluated. Conjugated polymers have been subject of great interest in the recent literature from both fundamental point of view and applied science perspective. Among the several types of conjugated polymers used in recent investigations, polythiophene and its derivatives have attracted considerable attention over the past 20 years due to their high mobility and other remarkable solid‐state properties. They have potential applications in many fields, such as microelectronic devices, catalysts, organic field‐effect transistors, chemical sensors, and biosensors. They have been studied as gas and volatile organic compounds (VOCs) sensors using different principles or transduction techniques, such as optical absorption, conductivity, and capacitance measurements. In this work, we report on the fabrication of gas sensors based on a conducting polymer on an interdigitated gold electrode. We use as active layer of the sensor a polythiophene derivative: poly (3‐hexylthiophene) (P3HT) and analyzed its conductivity as response for exposure to dynamic flow of saturated vapors of six VOCs [n‐hexane, toluene, chloroform, dichloromethane, methanol, and tetrahydrofuran (THF)]. Different responses were obtained upon exposure to all VOCs, THF gave the higher response while methanol the lower response. The influence of moisture on the measurements was also evaluated.
Author	Olivati, C. A. Nunes, B. M. Gonçalves, V. C. Balogh, D. T.
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Cites_doi	10.1016/S0079-6700(97)00032-4 10.1016/j.synthmet.2005.03.021 10.1103/PhysRevB.64.235122 10.1149/1.1838665 10.3390/s7030267 10.1016/j.snb.2009.08.009 10.1016/S0925-4005(99)00105-7 10.1007/s00604-004-0291-6 10.1108/02602280410525977 10.1016/0925-4005(94)01573-Z 10.1016/0925-4005(92)85001-D 10.1016/j.snb.2006.09.064 10.1021/nl060498o 10.1016/j.aca.2008.02.068 10.1016/j.synthmet.2007.07.015 10.1007/s002160051375 10.1016/j.tsf.2006.07.081 10.1016/S0925-4005(99)00460-8 10.1016/S0379-6779(98)01043-1
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Keywords	Conjugated polymer Absorption spectrometry Volatile organic compound Thiophene derivative polymer Gas detector Photoluminescence
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References_xml	– reference: B. Li, G. Sauvé, M. C. Iovu, M. Jeffries-El, R. Zhang, J. Cooper, S. Santhanam, L. Schultz, J. C. Revelli, A. G. Kusne, T. Kowalewski, J. L. Snyder, L. E. Weiss, G. K. Fedder, R. D. McCullough, and D. N. Lambeth, Nano Lett. 6, 1598 (2006). – reference: P. Schottlan, M. Bouguettaya, and C. Chevrot, Synth. Met. 102, 1325 (1999). – reference: H. V. Shurmer and J. W. Gardner, Sens. Actuators B 8, 1 (1992). – reference: U. Bai and G. Shi, Sensors 7, 267 (2007). – reference: D. J. Strike, M. G. H. Meijerink, and M. Koudelka-Hep, Fresenius J. Anal. Chem. 364, 499 (1999). – reference: M. C. Horrillo, J. Getino, L. Ares, J. I. Robla, I. Sayago, and F. J. Gutierrez, J. Electrochem. Soc. 145, 2486 (1998). – reference: O. J. Korovyanko, R. Osterbacka, X. M. Jiang, Z. V. Vardeny, and R. A. J. Janssen, Phys. Rev. B 64, 235122 (2001). – reference: U. Lange, N. V. Roznyatovskaya, and V. M. Mirsky, Anal. Chim. Acta 614, 1 (2008). – reference: K. Arshak, E. Moore, G. M. Lyons, F. Harris, and S. Clifford, Sens. Rev. 24, 181 (2004). – reference: J. Jaczewska, I. Raptis, A. Budkowski, D. Goutouridis, J. Raczkowska, A. Sanopoulou, E. Pamula, A. Bernasik, and J. Rysz, Synth. Met. 157, 726 (2007). – reference: J. W. Gardner, A. Pike, N. F. Derooij, M. Koudelkahep, P. A. Clerc, A. Hierlemann, and W. Gopel, Sens. Actuators B 26, 135 (1995). – reference: X. Ma, G. Li, H. Xu, M. Wang, and H. Chen, Thin Solid Films 515, 2700 (2006). – reference: V. C. Gonçalves and D. T. Balogh, Sens. Actuators B 142, 55 (2009). – reference: N. De Nevers, Air Pollution Control Engineering ( McGraw-Hill, Boston, 2000), p. 252. – reference: M. K. Ram, O. Yavuz, and M. Aldissi, Synth. Met. 151, 77 (2005). – reference: H. S. on Chan and S. C. Ng, Prog. Polym. Sci. 23, 1167 (1998). – reference: H. K. Hong, C. H. Kwon, S. R. Kim, D. H. Yun, K. Lee, and Y. K. Sung, Sens. Actuators B 66, 49 (2000). – reference: B. Li, S. Santhanam, L. Schultz, M. Jeffries-El, M. C. Iovu, G. Sauvé, J. Cooper, R. Zhang, J. C. Revelli, A. G. Kusne, J. L. Snyder, T. Kowalewski, L. E. Weiss, R. D. McCullough, G. K. Fedder, and D. N. Lambeth, Sens. Actuators B 123, 651 (2007). – reference: A. Szczureka, P. M. Szecówka, and B. W. Licznerski, Sens. Actuators B 58, 427 (1999). – reference: D. James, S. M. Scott, Z. Ali, and W. T. O'Hare, Microchim. Acta 149, 1 (2005). – volume: 102 start-page: 1325 year: 1999 publication-title: Synth. Met. – volume: 364 start-page: 499 year: 1999 publication-title: Fresenius J. Anal. Chem. – volume: 64 start-page: 235122 year: 2001 publication-title: Phys. Rev. B – volume: 145 start-page: 2486 year: 1998 publication-title: J. Electrochem. Soc. – volume: 7 start-page: 267 year: 2007 publication-title: Sensors – volume: 23 start-page: 1167 year: 1998 publication-title: Prog. Polym. Sci. – volume: 6 start-page: 1598 year: 2006 publication-title: Nano Lett. – volume: 123 start-page: 651 year: 2007 publication-title: Sens. Actuators B – volume: 26 start-page: 135 year: 1995 publication-title: Sens. Actuators B – volume: 8 start-page: 1 year: 1992 publication-title: Sens. Actuators B – volume: 149 start-page: 1 year: 2005 publication-title: Microchim. Acta – volume: 151 start-page: 77 year: 2005 publication-title: Synth. Met. – volume: 66 start-page: 49 year: 2000 publication-title: Sens. Actuators B – volume: 515 start-page: 2700 year: 2006 publication-title: Thin Solid Films – volume: 142 start-page: 55 year: 2009 publication-title: Sens. Actuators B – volume: 24 start-page: 181 year: 2004 publication-title: Sens. Rev. – volume: 58 start-page: 427 year: 1999 publication-title: Sens. Actuators B – volume: 614 start-page: 1 year: 2008 publication-title: Anal. Chim. Acta – start-page: 252 year: 2000 – volume: 157 start-page: 726 year: 2007 publication-title: Synth. Met. – ident: e_1_2_6_12_2 doi: 10.1016/S0079-6700(97)00032-4 – ident: e_1_2_6_14_2 doi: 10.1016/j.synthmet.2005.03.021 – ident: e_1_2_6_18_2 doi: 10.1103/PhysRevB.64.235122 – ident: e_1_2_6_7_2 doi: 10.1149/1.1838665 – ident: e_1_2_6_11_2 doi: 10.3390/s7030267 – ident: e_1_2_6_21_2 doi: 10.1016/j.snb.2009.08.009 – ident: e_1_2_6_4_2 doi: 10.1016/S0925-4005(99)00105-7 – ident: e_1_2_6_8_2 doi: 10.1007/s00604-004-0291-6 – start-page: 252 volume-title: Air Pollution Control Engineering year: 2000 ident: e_1_2_6_2_2 – ident: e_1_2_6_19_2 doi: 10.1108/02602280410525977 – ident: e_1_2_6_3_2 doi: 10.1016/0925-4005(94)01573-Z – ident: e_1_2_6_6_2 doi: 10.1016/0925-4005(92)85001-D – ident: e_1_2_6_17_2 doi: 10.1016/j.snb.2006.09.064 – ident: e_1_2_6_15_2 doi: 10.1021/nl060498o – ident: e_1_2_6_10_2 doi: 10.1016/j.aca.2008.02.068 – ident: e_1_2_6_20_2 doi: 10.1016/j.synthmet.2007.07.015 – ident: e_1_2_6_9_2 doi: 10.1007/s002160051375 – ident: e_1_2_6_16_2 doi: 10.1016/j.tsf.2006.07.081 – ident: e_1_2_6_5_2 doi: 10.1016/S0925-4005(99)00460-8 – ident: e_1_2_6_13_2 doi: 10.1016/S0379-6779(98)01043-1
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Snippet	Conjugated polymers have been subject of great interest in the recent literature from both fundamental point of view and applied science perspective. Among the...
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SubjectTerms	Analytical chemistry Chemistry conjugated polymers electrical properties Exact sciences and technology General, instrumentation sensors Spectrometric and optical methods
Title	Detection of volatile organic compounds using a polythiophene derivative
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