Principle Investigator: Shuaichen Wang
Project Co-ordinator: Jessica
Data Coverage:
We have developed electrode materials on a flexible substrate using a new solution method, which are almost identical to traditional rigid silver/silver chloride electrodes. Measurements show that the new materials have the same XRD patterns and surface impedance as the original materials. We aim to develop these new electrodes into usable bioelectrode materials that can produce high-definition flexible bioelectrodes. Our new materials and designs have good biocompatibility and compatibility, and are less likely to cause skin allergies during long-term wear. We will further test their stability and comfort on the skin surface and ultimately analyze their market potential.
Electrocardiogram data captured using new thin-film electrode materials. And the tests on the comfort and durability of new skin-friendly materials and scaffold structures after prolonged adhesion to the skin surface.
Shuaichen Wang, Yuan Gao,* Anneng Yang, Xuyun Guo, Xing Ju, Yaokang Zhang, Lina Chen, Dongdong Chen, Qiuna Zhuang, Shengdong Zhang, Ye Zhu, Feng Yan,* and Zijian Zheng*, Inkjet-printed Xerogel Scaffolds Enabled Room-temperature Fabrication of High-quality Copper Electrodes for Flexible Electronics, Adv. Funct. Mater. Published. Wang SC, Zhang B, Kang L, Liang C, Chen D, Liu G, Guo X. Flexible and Robust Triboelectric Nanogenerators with Chemically Prepared Metal Electrodes and a Plastic Contact Interface Based on Low-Cost Pressure-Sensitive Adhesive. Sensors (Basel). 2023 Feb 10;23(4):2021. doi: 10.3390/s23042021. Qiuna Zhuang, Zhijun Ma, Yuan Gao, Yaokang Zhang, Shuaichen Wang, Xi Lu, Hong Hu, Chifai Cheung, Qiyao Huang,* and Zijian Zheng* Liquid-metal-superlyophilic and Conductivity-strain-enhancing Scaffold for Permeable Superelastic Conductors, Adv. Funct. Mater. 2021, 31, 2105587