Environmental monitoring of low-ppb ammonia concentrations based on single-wall carbon nanotube chemiresistor gas sensors: Detection limits, response dynamics, and moisture effects

Federica Rigoni; Silvia Tognolini; P. Borghetti; Patrizia Borghetti; Giovanni Drera; Stefania Pagliara; A. Goldoni; Andrea Goldoni; Luigi Ermenegildo Sangaletti

doi:10.1016/j.proeng.2014.11.638

Environmental monitoring of low-ppb ammonia concentrations based on single-wall carbon nanotube chemiresistor gas sensors: Detection limits, response dynamics, and moisture effects

Federica Rigoni^*, Silvia Tognolini, P. Borghetti, Patrizia Borghetti, Giovanni Drera, Stefania Pagliara, A. Goldoni, Andrea Goldoni, Luigi Ermenegildo Sangaletti

^*Corresponding author

Research output: Contribution to journal › Conference article › peer-review

16 Citations (Scopus)

Abstract

We present single-wall carbon nanotube (SWCNT) chemiresistor gas sensor (CGS) operating at room temperature, displaying an enhanced sensitivity to NH<inf>3</inf>. Ammonia concentrations in the full range of the average [NH<inf>3</inf>] in a urban environment have been measured, and a detection limit of 3 ppb is demonstrated, which is well below the sensitivities so far reported for nonfunctionalized SWCNTs operating at room temperature. Different materials were tested as substrates, including cheap plastic flexible substrates. In addition to a careful preparation of the SWCNT layers, the low-ppb limit is also attained by revealing and properly tracking a fast dynamics during the desorption process. On the basis of these results a model of the CGS response vs time is proposed. When functionalized with indium-tin oxide nanoparticles, a sensitivity increase is detected, along with a remarkable selectivity towards moisture.

Original language	English
Pages (from-to)	716-719
Number of pages	4
Journal	Procedia Engineering
Volume	2014
DOIs	https://doi.org/10.1016/j.proeng.2014.11.638
Publication status	Published - 2014
Event	28th European Conference on Solid-State Transducers, EUROSENSORS 2014 - ita Duration: 7 Sept 2014 → 10 Sept 2014

Keywords

Ammonia
Carbon nanotubes
Detection limit
Engineering (all)
Gas sensors
Moisture selectivity
Response dynamics

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10.1016/j.proeng.2014.11.638

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Rigoni, F., Tognolini, S., Borghetti, P., Borghetti, P., Drera, G., Pagliara, S., Goldoni, A., Goldoni, A., & Sangaletti, L. E. (2014). Environmental monitoring of low-ppb ammonia concentrations based on single-wall carbon nanotube chemiresistor gas sensors: Detection limits, response dynamics, and moisture effects. Procedia Engineering, 2014, 716-719. https://doi.org/10.1016/j.proeng.2014.11.638

@article{cf35d2536529478a82f08d064e5f68ea,

title = "Environmental monitoring of low-ppb ammonia concentrations based on single-wall carbon nanotube chemiresistor gas sensors: Detection limits, response dynamics, and moisture effects",

abstract = "We present single-wall carbon nanotube (SWCNT) chemiresistor gas sensor (CGS) operating at room temperature, displaying an enhanced sensitivity to NH3. Ammonia concentrations in the full range of the average [NH3] in a urban environment have been measured, and a detection limit of 3 ppb is demonstrated, which is well below the sensitivities so far reported for nonfunctionalized SWCNTs operating at room temperature. Different materials were tested as substrates, including cheap plastic flexible substrates. In addition to a careful preparation of the SWCNT layers, the low-ppb limit is also attained by revealing and properly tracking a fast dynamics during the desorption process. On the basis of these results a model of the CGS response vs time is proposed. When functionalized with indium-tin oxide nanoparticles, a sensitivity increase is detected, along with a remarkable selectivity towards moisture.",

keywords = "Ammonia, Carbon nanotubes, Detection limit, Engineering (all), Gas sensors, Moisture selectivity, Response dynamics, Ammonia, Carbon nanotubes, Detection limit, Engineering (all), Gas sensors, Moisture selectivity, Response dynamics",

author = "Federica Rigoni and Silvia Tognolini and P. Borghetti and Patrizia Borghetti and Giovanni Drera and Stefania Pagliara and A. Goldoni and Andrea Goldoni and Sangaletti, {Luigi Ermenegildo}",

year = "2014",

doi = "10.1016/j.proeng.2014.11.638",

language = "English",

volume = "2014",

pages = "716--719",

journal = "Procedia Engineering",

issn = "1877-7058",

publisher = "Elsevier B.V.",

note = "28th European Conference on Solid-State Transducers, EUROSENSORS 2014 ; Conference date: 07-09-2014 Through 10-09-2014",

}

Rigoni, F, Tognolini, S, Borghetti, P, Borghetti, P, Drera, G, Pagliara, S, Goldoni, A, Goldoni, A & Sangaletti, LE 2014, 'Environmental monitoring of low-ppb ammonia concentrations based on single-wall carbon nanotube chemiresistor gas sensors: Detection limits, response dynamics, and moisture effects', Procedia Engineering, vol. 2014, pp. 716-719. https://doi.org/10.1016/j.proeng.2014.11.638

Environmental monitoring of low-ppb ammonia concentrations based on single-wall carbon nanotube chemiresistor gas sensors: Detection limits, response dynamics, and moisture effects. / Rigoni, Federica; Tognolini, Silvia; Borghetti, P. et al.
In: Procedia Engineering, Vol. 2014, 2014, p. 716-719.

Research output: Contribution to journal › Conference article › peer-review

TY - JOUR

T1 - Environmental monitoring of low-ppb ammonia concentrations based on single-wall carbon nanotube chemiresistor gas sensors: Detection limits, response dynamics, and moisture effects

AU - Rigoni, Federica

AU - Tognolini, Silvia

AU - Borghetti, P.

AU - Borghetti, Patrizia

AU - Drera, Giovanni

AU - Pagliara, Stefania

AU - Goldoni, A.

AU - Goldoni, Andrea

AU - Sangaletti, Luigi Ermenegildo

PY - 2014

Y1 - 2014

N2 - We present single-wall carbon nanotube (SWCNT) chemiresistor gas sensor (CGS) operating at room temperature, displaying an enhanced sensitivity to NH3. Ammonia concentrations in the full range of the average [NH3] in a urban environment have been measured, and a detection limit of 3 ppb is demonstrated, which is well below the sensitivities so far reported for nonfunctionalized SWCNTs operating at room temperature. Different materials were tested as substrates, including cheap plastic flexible substrates. In addition to a careful preparation of the SWCNT layers, the low-ppb limit is also attained by revealing and properly tracking a fast dynamics during the desorption process. On the basis of these results a model of the CGS response vs time is proposed. When functionalized with indium-tin oxide nanoparticles, a sensitivity increase is detected, along with a remarkable selectivity towards moisture.

AB - We present single-wall carbon nanotube (SWCNT) chemiresistor gas sensor (CGS) operating at room temperature, displaying an enhanced sensitivity to NH3. Ammonia concentrations in the full range of the average [NH3] in a urban environment have been measured, and a detection limit of 3 ppb is demonstrated, which is well below the sensitivities so far reported for nonfunctionalized SWCNTs operating at room temperature. Different materials were tested as substrates, including cheap plastic flexible substrates. In addition to a careful preparation of the SWCNT layers, the low-ppb limit is also attained by revealing and properly tracking a fast dynamics during the desorption process. On the basis of these results a model of the CGS response vs time is proposed. When functionalized with indium-tin oxide nanoparticles, a sensitivity increase is detected, along with a remarkable selectivity towards moisture.

KW - Ammonia

KW - Carbon nanotubes

KW - Detection limit

KW - Engineering (all)

KW - Gas sensors

KW - Moisture selectivity

KW - Response dynamics

KW - Ammonia

KW - Carbon nanotubes

KW - Detection limit

KW - Engineering (all)

KW - Gas sensors

KW - Moisture selectivity

KW - Response dynamics

UR - http://hdl.handle.net/10807/98154

UR - http://www.sciencedirect.com/science/journal/18777058

U2 - 10.1016/j.proeng.2014.11.638

DO - 10.1016/j.proeng.2014.11.638

M3 - Conference article

SN - 1877-7058

VL - 2014

SP - 716

EP - 719

JO - Procedia Engineering

JF - Procedia Engineering

T2 - 28th European Conference on Solid-State Transducers, EUROSENSORS 2014

Y2 - 7 September 2014 through 10 September 2014

ER -

Environmental monitoring of low-ppb ammonia concentrations based on single-wall carbon nanotube chemiresistor gas sensors: Detection limits, response dynamics, and moisture effects

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Keywords

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