Crystalline Microporous Organosilicates with Reversed Functionalities of Organic and Inorganic Components for Room-Temperature Gas Sensing

A deepened investigation on an innovative organic–inorganic hybrid material, referred to as ECS-14 (where ECS = Eni carbon silicates), revealed the possibility to use them as gas sensors. Indeed, among ECS phases, the crystalline state and the hexagonal microplateletlike morphology characteristic of...

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Published in:ACS applied materials & interfaces 2017-07, Vol.9 (29), p.24812-24820
Main Authors: Fabbri, Barbara, Bonoldi, Lucia, Guidi, Vincenzo, Cruciani, Giuseppe, Casotti, Davide, Malagù, Cesare, Bellussi, Giuseppe, Millini, Roberto, Montanari, Luciano, Carati, Angela, Rizzo, Caterina, Montanari, Erica, Zanardi, Stefano
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cited_by cdi_FETCH-LOGICAL-a330t-ccf8e5b7db73273e55b51cb3dda7416211f0102188c58aa38ba720bc08a94c413
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creator Fabbri, Barbara
Bonoldi, Lucia
Guidi, Vincenzo
Cruciani, Giuseppe
Casotti, Davide
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Bellussi, Giuseppe
Millini, Roberto
Montanari, Luciano
Carati, Angela
Rizzo, Caterina
Montanari, Erica
Zanardi, Stefano
description A deepened investigation on an innovative organic–inorganic hybrid material, referred to as ECS-14 (where ECS = Eni carbon silicates), revealed the possibility to use them as gas sensors. Indeed, among ECS phases, the crystalline state and the hexagonal microplateletlike morphology characteristic of ECS-14 seemed favorable properties to obtain continuous and uniform films. ECS-14 phase was used as functional material in screen-printable compositions and was thus deposited by drop coating for morphological, structural, thermal, and electrical characterizations. Possible operation at room temperature was investigated as technological progress, offering intrinsic safety in sensors working in harsh or industrial environments and avoiding high power consumption of most common sensors based on metal oxide semiconductors. Electrical characterization of the sensors based on ECS-14 versus concentrations of gaseous analytes gave significant results at room temperature in the presence of humidity, thereby demonstrating fundamental properties for a good quality sensor (speed, reversibility, and selectivity) that make them competitive with respect to systems currently in use. Remarkably, we observed functionality reversal of the organic and inorganic components; that is, in contrast to other hybrids, for ECS-14 the functional site has been ascribed to the inorganic phase while the organic component provided structural stability to the material. The sensing mechanism for humidity was also investigated.
doi_str_mv 10.1021/acsami.7b02122
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title Crystalline Microporous Organosilicates with Reversed Functionalities of Organic and Inorganic Components for Room-Temperature Gas Sensing
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