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Carbon-dots conductometric sensor for high performance gas sensing

Shadi SawalhaDepartment of Chemical Engineering, An-Najah National University, Nablus, PalestineKaveh MoulaeeDipartimento di Ingegneria, Università di Messina, Contrada Di Dio, Messina 98186, ItalyGiuseppe NocitoDipartimento di Scienze Chimiche, Biologiche, Farmaceutiche ed Ambientali (ChiBioFarAm), Università di Messina, Viale F. Stagno d'Alcontres 31, Messina 98186, ItalyAlessandro SilvestriCenter for Cooperative Research in Biomaterials (CIC biomaGUNE), Basque Research and Technology Alliance (BRTA), Paseo de Miramon 182, Donostia San Sebastián 20014, SpainSalvatore PetraliaDipartimento di Scienze del Farmaco e della Salute, Università di Catania, Viale Andrea Doria 6, Catania 95125, ItalyMaurizio PratoCenter for Cooperative Research in Biomaterials (CIC biomaGUNE), Basque Research and Technology Alliance (BRTA), Paseo de Miramon 182, Donostia San Sebastián 20014, SpainSimona BettiniDipartimento di Ingegneria dell'Innovazione, Università del Salento, Lecce, Via Monteroni 73100, ItalyLudovico ValliDipartimento di Scienze e Tecnologie Biologiche e Ambientali, Università del Salento, Via Monteroni, Lecce 73100, ItalySabrina ConociDipartimento di Scienze Chimiche, Biologiche, Farmaceutiche ed Ambientali (ChiBioFarAm), Università di Messina, Viale F. Stagno d'Alcontres 31, Messina 98186, ItalyG. NeriDipartimento di Ingegneria, Università di Messina, Contrada Di Dio, Messina 98186, Italy
2021en
ABI

Annotatsiya

In this paper the first example of using C-dots (CDs) as sensing nanomaterial for monitoring low concentrations of NO2 in ambient air is reported. In the logic to support a green circular economy, CDs were prepared from a natural low cost precursor consisting in olive solid waste (OSW) by a simple pyrolysis process combined with chemical oxidation. Characterization data showed the formation of spherical CDs with dimensions in the narrow size range from 0.5 to 5 nm and charged with functional groups (COO- (carboxylate), C-O-C (epoxide) and C-OH (hydroxyl) imprinting excellent water colloidal dispersion. The nanomaterial was used to fabricate and test a conductometric gas sensor (CDs-sensor) that was found to exhibit excellent performances in terms of high and selective response to sub-ppm concentration of NO2 at low temperature (150 °C), low limit of detection (LOD) of 50 ppb, good reproducibility and stability over use and aging. To the best of our knowledge, this is the first example reported in the literature of CDs high performances gas sensing material. Results here presented pave the way for a new class of a carbon nanomaterial for gas sensing to be applied in the field of environmental monitoring.

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