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Strong Bacterial Cellulose-Based Films with Natural Laminar Alignment for Highly Sensitive Humidity Sensors

Hongliang Ma, Xia Li, Jiang Lou, Yujie Gu, Yang Zhang, Yifei Jiang, Heli Cheng, Wenjia Han

2022ACS Applied Materials & Interfaces52 citationsDOI

Abstract

Humidity sensors have been widely used for humidity monitoring in industry and agriculture fields. However, the rigid structure, nondegradability, and large dimension of traditional humidity sensors significantly restrict their applications in wearable fields. In this study, a flexible, strong, and eco-friendly bacterial cellulose-based humidity sensor (BPS) was fabricated using a two-step method, involving solvent evaporation-induced self-assembly and electrolyte permeation. Rapid evaporation of organic solvent induces the formation of nanopores of the bacterial cellulose (BC) surface and promotes structural densification. Furthermore, the successful embedding of potassium hydroxide into the sophisticated network of BC effectively enhanced the sensing performance of BPS. The BPS exhibits an excellent humidity sensing response of more than 103 within the relative humidity ranging from 36.4 to 93% and strong (66.4 MPa) and high flexibility properties owing to the ultrafine fiber network and abundant hydrophilic functional groups of BC. Besides being strong and thin, BPS is also highly flexible, biodegradable, and humidity-sensitive, making it a potential candidate in wearable electronics, human health monitoring, and noncontact switching.

Topics & Concepts

HumidityMaterials scienceBacterial celluloseCelluloseEvaporationPotassium hydroxideRelative humidityChemical engineeringCellulose fiberNanotechnologyComposite materialFiberPhysicsThermodynamicsEngineeringGas Sensing Nanomaterials and SensorsAdvanced Sensor and Energy Harvesting MaterialsAdvanced Fiber Optic Sensors
Strong Bacterial Cellulose-Based Films with Natural Laminar Alignment for Highly Sensitive Humidity Sensors | Litcius