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Low Driving Voltage Electroluminescence Device for Integrated Visual Strain Sensing

Simu Zhu, Feng Xiong, Yifan Gu, Wei‐Chun Chen, Qitian Fan, Hao Lu, Ting Wang, Bo‐Ru Yang, Shaozhi Deng

2024ACS Applied Materials & Interfaces19 citationsDOI

Abstract

As a pivotal component in human–machine interactions, display devices have undergone rapid development in modern life. Displays such as alternative current electroluminescence|alternative current electroluminescent (ACEL) devices with high flexibility and long operational lifetimes are essential for wearable electronics. However, ACEL devices are constrained by their inherent high driving voltage and complex fabrication processes. Our work presents an easy blade-coating method for fabricating flexible ACEL display devices based on an all-solution process. By dispersing BaTiO 3 and ZnS/Cu powder into waterborne polyurethane, we successfully combined dielectric and fluorescence functionalities within a single layer, significantly reducing the device’s driving voltage. Additionally, the ionic conducting hydrogel was chosen as a transparent electrode to achieve good electrical contact and strong interfacial adhesion through in situ polymerization. Owing to the unique method, our ACEL device exhibits high flexibility, low driving voltage (20–100 V), high brightness (300+ cd/m 2 at 60 V), and environmental friendliness. Furthermore, by repurposing the hydrogel electrode, we integrated strain visualization capabilities within a single device, highlighting its potential for applications such as wearable healthcare monitoring.

Topics & Concepts

Materials scienceElectroluminescenceFlexible displayOptoelectronicsCoatingElectrodeFabricationElectroluminescent displayNanotechnologyLayer (electronics)Thin-film transistorPathologyAlternative medicineChemistryMedicinePhysical chemistryAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsTactile and Sensory Interactions
Low Driving Voltage Electroluminescence Device for Integrated Visual Strain Sensing | Litcius