Dopamine-integrated all-hydrogel multi-electrode arrays for neural activity recording
Mingze Zeng, Jie Ding, Yuan Tian, Yusheng Zhang, Xiaoyin Liu, Zhihong Chen, Jing Sun, Chengheng Wu, Huabing Yin, Dan Wei, Hongsong Fan
Abstract
) comparable to that of metals and precise spatial resolution (∼15 μm) suitable for single neuron recording. In addition, the utilization of polyphenol chemistry mediated adaptive adhesion endowed this neural electrode with flexible and stable interlayer bonding among conductive-encapsulation-shielding layers and the tissue-electrode interface. Consequently, the all-hydrogel neural electrode exhibited a tenfold higher signal-to-noise ratio than a commercial silver electrode, realized the recording of weak neural activity signals within single and multiple neurons in epileptic rats, and applied man-made stimulation to the cerebral cortex of rats during seizures. This work provides a useful tool to understand the development, function and treatment of neurodegenerative diseases.