Room-temperature ethylene glycol sensor based on cuprous oxide/MXene films

Room-temperature ethylene glycol sensor based on cuprous oxide/MXene films

Abstract This study demonstrates a high-performance room-temperature ethylene glycol (EG) gas sensor using Cu2O/MXene bilayer films on quartz crystal microbalance (QCM) substrates, addressing critical needs for industrial safety and environmental monitoring. The fabricated sensors were systematicall...

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Bibliographic Details
Main Authors: Sepehr Samiei, Asadollah Kalantarian, Azam Iraji zad, Narges Darmiani
Format: Article
Language:English
Published: Nature Portfolio 2025-08-01
Series:Scientific Reports
Subjects:
MXene
Cu2O/MXene bilayer
Quartz crystal microbalance (QCM)
Gas sensors
Ethylene glycol (EG)
Online Access:https://doi.org/10.1038/s41598-025-12019-1
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Summary:Abstract This study demonstrates a high-performance room-temperature ethylene glycol (EG) gas sensor using Cu2O/MXene bilayer films on quartz crystal microbalance (QCM) substrates, addressing critical needs for industrial safety and environmental monitoring. The fabricated sensors were systematically characterized by XRD, FTIR, and FESEM, revealing that the Cu2O/MXene bilayer configuration achieved exceptional performance with an ultra-low detection limit of 381 ppb, high sensitivity of 22.8 Hz/ppm, and excellent selectivity compared to individual Cu2O, MXene, or their mixture films. The enhanced sensing capability originates from synergistic effects between p-type Cu2O and conductive MXene, forming a Schottky junction that facilitates charge transfer and promotes EG adsorption through combined physisorption mechanisms involving hydrogen bonding with MXene’s functional groups (OH, O, F) and interactions with oxygen species on Cu2O nanoparticles. At 72 ppm EG concentration, the bilayer sensor exhibited 12.6-fold, 3.6-fold, and 2.34-fold higher response than pure Cu2O, MXene alone, and their mixture film, respectively. While humidity tests showed a moderate ~ 15% response reduction at 60% RH, the Cu2O/MXene bilayer maintained robust performance, establishing it as a cost-effective and reliable room-temperature sensing platform suitable for next-generation gas detection applications in challenging environments.
ISSN:2045-2322

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