New stand-alone hygrometers based on the moisture-driven bending of a nanoclay and polyimide bilayer

Natural bentonite (BNT) nanoclay and a polyimide (PI) film were used to fabricate durable bilayer-type actuators driven by airborne moisture. The BNT/PI actuators, optimized for the layer thickness and dimensions, displayed a linear response over the relative humidity (RH) range of 4 – 92% with the...

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Bibliographic Details
Published inSensors and actuators. B, Chemical Vol. 359; p. 131559
Main Authors Nguyen, Duc Cuong, Bui, Trung Tuyen, Hua, Si Hiep, Chun, Hyungphil, Kim, Yong Shin
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.05.2022
Elsevier Science Ltd
Subjects
Actuators
Bending
Bentonite
Bilayers
Hygrometer
Hygrometers
Material properties
Moisture effects
Moisture-driven actuator
Relative humidity
Selectivity
Stiffness
Thickness
Water vapor
Water-responsive materials
Moisture-driven actuator
Bentonite
Water-responsive materials
Hygrometer
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Summary:Natural bentonite (BNT) nanoclay and a polyimide (PI) film were used to fabricate durable bilayer-type actuators driven by airborne moisture. The BNT/PI actuators, optimized for the layer thickness and dimensions, displayed a linear response over the relative humidity (RH) range of 4 – 92% with the curvature sensitivity of 0.35 cm−1%RH−1. It also showed good selectivity to moisture against common organic solvent vapors and excellent reproducibility for up to 200 consecutive operations. Systematic investigations on the materials properties for the individual layers revealed that the bending occurred upon the adsorption of water vapor because the BNT layer underwent greater volume expansion and loss of stiffness than the PI layer. These BNT/PI actuators were successfully applied to create three different prototypes of user-friendly, stand-alone hygrometers: a clock-like hygrometer, an emoticon-display hygrometer, and a humidity-switch-based LED hygrometer. •A new moisture-driven bilayer actuator using water-expandable BNT nanoclays.•Linear and reliable bending over a wide RH range of 4–92% with sufficient sensitivity and selectivity to water vapor.•Bending mechanism based on the humidity-driven expansion induced by water absorption of the BNT.•Development of three prototypes of user-friendly and stand-alone hygrometers as well as a humidity switch.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2022.131559