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Montmorillonite/rGO 복합체의 전기적 퍼콜레이션 거동을 통한 저항형 습도 센서의 감도 및 안정성 향상

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Enhanced Sensitivity and Stability of Resistive Humidity Sensors via Electrical Percolation Dynamics in Montmorillonite/rGO Composites

Ju Hyoeng Yu, Seoung-ki Lee
J Electr Electron Mater 2026;39(1):79-87.
Published online: January 1, 2026
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Humidity monitoring of exhaled breath has emerged as a vital approach for noninvasive respiratory health assessment, underscoring the need for sensitive and reliable humidity sensors. Despite its high conductivity and hydrophilic functional groups, reduced graphene oxide (rGO) often undergoes irreversible moisture adsorption and gradual oxidation by residual water, resulting in sensitivity degradation and long-term instability during cycling. In this study, a montmorillonite/reduced graphene oxide (MMT/rGO) composite is developed as a room-temperature humidity-sensing material, exhibiting an optimized response of 115%, more than 14 times higher than that of pristine rGO. This superior performance originates from the synergistic interaction between the reversible MMT swelling and the conductive rGO network near the electrical percolation transition, which ensures excellent stability and repeatability under repeated humidity cycles. These findings suggest that the MMT/rGO composite provides a cost-effective and biocompatible platform for next-generation wearable humidity sensors capable of continuous respiratory monitoring.

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Enhanced Sensitivity and Stability of Resistive Humidity Sensors via Electrical Percolation Dynamics in Montmorillonite/rGO Composites
J Electr Electron Mater. 2026;39(1):79-87.   Published online January 1, 2026
Download Citation

Download a citation file in RIS format that can be imported by all major citation management software, including EndNote, ProCite, RefWorks, and Reference Manager.

Format:
Include:
Enhanced Sensitivity and Stability of Resistive Humidity Sensors via Electrical Percolation Dynamics in Montmorillonite/rGO Composites
J Electr Electron Mater. 2026;39(1):79-87.   Published online January 1, 2026
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