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Self-Healing and Wide Temperature-Tolerant Cellulose-Based Eutectogels for Reversible Humidity Detection

Yufang Wu, Xiong‐Fei Zhang, Mengjie Li, Mengjiao Yu, Jianfeng Yao

2024Langmuir29 citationsDOI

Abstract

A kind of ionic conductive gel (also named eutectogel) is developed from an inorganic salt (ZnCl 2 )-based deep eutectic solvent (DES). The ternary DES consists of ZnCl 2, acrylic acid, and water, and cotton linter cellulose is introduced into the DES system to tailor its mechanical and conductive properties. Enabled by the extensive hydrogen bonds and ion–dipole interactions, the obtained eutectogel displays superior ionic conductivity (0.33 S/m), high stretchability (up to 2050%), large tensile strength (1.82 MPa), and wide temperature tolerance (−40 to 60 °C). In particular, the water-induced coordination interactions can tune the strength of hydrogen/ionic bonds in the eutectogels, imparting them with appealing humidity sensing ability in complex and extreme conditions.

Topics & Concepts

Hydrogen bondCelluloseIonic conductivityChemical engineeringAcrylic acidSolventMaterials scienceTernary operationIonic bondingIonic strengthUltimate tensile strengthConductivitySalt (chemistry)Polymer chemistryDeep eutectic solventHumidityElectrical conductorEutectic systemChemistryComposite materialIonOrganic chemistryPolymerMoleculeElectrolytePhysical chemistryCopolymerAqueous solutionThermodynamicsAlloyProgramming languageComputer scienceElectrodePhysicsEngineeringAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsGas Sensing Nanomaterials and Sensors
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