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Tough Transient Ionic Junctions Printed with Ionic Microgels

Ran Huo, Guangyu Bao, Zixin He, Xuan Li, Zhenwei Ma, Zhen Yang, Roozbeh Siavash Moakhar, Shuaibing Jiang, Christopher Chung‐Tze‐Cheong, Alexander Nottegar, Changhong Cao, Sara Mahshid, Jianyu Li

2023Advanced Functional Materials29 citationsDOIOpen Access PDF

Abstract

Abstract Emerging soft ionotronics better match the human body mechanically and electrically compared to conventional rigid electronics. They hold great potential for human‐machine interfaces, wearable and implantable devices, and soft machines. Among various ionotronic devices, ionic junctions play critical roles in rectifying currents as electrical p–n junctions. Existing ionic junctions, however, are limited in electrical and mechanical performance, and are difficult to fabricate and degrade. Herein, the design, fabrication, and characterization of tough transient ionic junctions fabricated via 3D ionic microgel printing is reported. The 3D printing method demonstrates excellent printability and allows one to fabricate ionic junctions of various configurations with high fidelity. By combining ionic microgels, degradable networks, and highly charged biopolymers, the ionic junctions feature high stretchability (stretch limit 27), high fracture energy (>1000 Jm −2 ), excellent electrical performance (current rectification ratio >100), and transient stability (degrade in 1 week). A variety of ionotronic devices, including ionic diodes, ionic bipolar junction transistors, ionic full‐wave rectifiers, and ionic touchpads are further demonstrated. This study merges ionotronics, 3D printing, and degradable hydrogels, and will motivate the future development of high‐performance transient ionotronics.

Topics & Concepts

Ionic bondingMaterials scienceNanotechnologyFabricationTransient (computer programming)Ionic liquidOptoelectronicsIonComputer scienceChemistryCatalysisPathologyMedicineAlternative medicineOrganic chemistryBiochemistryOperating systemAdvanced Sensor and Energy Harvesting MaterialsDielectric materials and actuatorsConducting polymers and applications