: We demonstrate the possibility of using an array of MINT-based chemiresistors for the selective detection of VOCs at room temperature. Four new types of MINTs with different functional groups (MINTALKENE (X:-CH = CH2), MINTCOOMe (X:-COOMe), MINTCOOH (X:-COOH), and MINTOH (X:-CH2OH)) were specifically synthesized to prepare a set of six sensing layers, which included, in addition to the new MINTs, a pristine SWNTs layer and a MINTXYLENE layer. The functionalized sensing layers were tested by exposing them to NH3, NO2, EtOH, IPA, acetone, benzene, and NaClO vapors in the ppm range. We showed that MINT functionalization enhances response to analytes with respect to pristine SWNTs. When assembled into an array, our sensing layers can operate at room temperature as an electronic nose, disclosing the possibility of using these layers in low-power-consumption wearable devices. Correlation plots, PCA, and UMAP analysis show that a remarkable discrimination of ammonia with respect to interfering gases can be reached by the e-nose. Gas mixtures were also discriminated, as shown for NH3/ethanol, acetone/ethanol, and isopropanol/acetone mixtures, which are relevant in view of breathomics applications. The efficient preparation method of sensing layers allows for an improvement of performance, as shown for one of the best performing chemiresistors in the set, resulting in a sensitivity increase (up to 10×) and a dramatic reduction of response and recovery times.
Galvani, M., Lopez-Moreno, A., Martin Sabanes, N., Parzyszek, S., Zanotti, M., Freddi, S., Perez, E. M., Sangaletti, L. E., Efficient Implementation of MINT-Based Chemiresistor Arrays for Artificial Olfaction, <<JOURNAL OF THE AMERICAN CHEMICAL SOCIETY>>, 2025; 147 (26): 23248-23258. [doi:10.1021/jacs.5c07781] [https://hdl.handle.net/10807/342996]
Efficient Implementation of MINT-Based Chemiresistor Arrays for Artificial Olfaction
Galvani, MichelePrimo
Investigation
;Zanotti, MicheleMembro del Collaboration Group
;Freddi, SoniaMembro del Collaboration Group
;Sangaletti, Luigi Ermenegildo
Ultimo
Writing – Original Draft Preparation
2025
Abstract
: We demonstrate the possibility of using an array of MINT-based chemiresistors for the selective detection of VOCs at room temperature. Four new types of MINTs with different functional groups (MINTALKENE (X:-CH = CH2), MINTCOOMe (X:-COOMe), MINTCOOH (X:-COOH), and MINTOH (X:-CH2OH)) were specifically synthesized to prepare a set of six sensing layers, which included, in addition to the new MINTs, a pristine SWNTs layer and a MINTXYLENE layer. The functionalized sensing layers were tested by exposing them to NH3, NO2, EtOH, IPA, acetone, benzene, and NaClO vapors in the ppm range. We showed that MINT functionalization enhances response to analytes with respect to pristine SWNTs. When assembled into an array, our sensing layers can operate at room temperature as an electronic nose, disclosing the possibility of using these layers in low-power-consumption wearable devices. Correlation plots, PCA, and UMAP analysis show that a remarkable discrimination of ammonia with respect to interfering gases can be reached by the e-nose. Gas mixtures were also discriminated, as shown for NH3/ethanol, acetone/ethanol, and isopropanol/acetone mixtures, which are relevant in view of breathomics applications. The efficient preparation method of sensing layers allows for an improvement of performance, as shown for one of the best performing chemiresistors in the set, resulting in a sensitivity increase (up to 10×) and a dramatic reduction of response and recovery times.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.



