Liquid metal‐based electrodes for flexible electronics
Zhengxin Guan, Yongchang Jiang, Yukai Zhou, Zhengdao Chu, Wen Cheng, Yi Shi, Lijia Pan
Abstract
Abstract Flexible electronics is gaining prominence in modern technology, particularly in flexible displays, wearable electronics, and biomedical applications. Electrodes, as core components of flexible electronics, demand high conductivity, flexibility, and stretchability. However, traditional rigid conductive materials often generate interfacial slip with elastic substrates due to mismatched Young's modulus, adversely affecting device performance. Room‐temperature liquid metals (LMs), with their high conductivity and stretchability, have emerged as ideal materials for stable and reliable flexible electronic devices. This review discusses the physical, chemical, and biocompatibility properties of LMs. Additionally, LM‐based fabrication strategies including patterning and sintering for flexible electrodes are outlined. Applications in implantable medical devices, wearable electronics, and flexible energy storage are illustrated. Finally, the primary challenges and future research directions in LMs are identified.