祝贺宋恩名老师“全脑维度脑电放大微电极阵列”入选2026中关村论坛脑机接口重磅成果

近日，在中关村论坛“脑机接口创新发展论坛”上，脑机接口产业联盟与中国信通院联合发布了十五项脑机接口领域重磅成果。其中，宋恩名老师团队研制的“面向植入式脑机接口应用的全脑维度脑电放大微电极阵列”成功入选，获得高度关注。

该成果围绕植入式脑电传感器与脑形貌微观不适配、采集信噪比低、传输不稳定的难题，提出了植入式硅基脑电放大微电极阵列。利用柔性电子技术高密度集成数以万计的硅纳米薄膜晶体管阵列，建立了全脑维度的高信噪比传输通道。通过开发面向癫痫诊疗的高时空精度采集-反馈闭环功能，创建多物理场耦合器件的神经调空应用。相关技术在 PNAS、Nature Communications, National Science Review等高水平期刊上发表。

原文链接：https://mp.weixin.qq.com/s/m41MALCNGWV0bExepFcUYw

Song Enming's Whole-Brain Microelectrode Array Named Key BCI Achievement at 2026 Zhongguancun Forum

Professor Song Enming’s group at Fudan University has developed a groundbreaking implantable “Whole-Brain Scalp EEG Amplification Microelectrode Array,” selected as one of 15 major BCI achievements unveiled at the Zhongguancun Forum’s Brain-Computer Interface Innovation Summit. The array overcomes long-standing issues of poor brain tissue compatibility, low signal to noise ratio, and unstable data transmission in implantable EEG sensing. Using flexible electronics to densely integrate thousands of silicon nanofilm transistors, it enables high SNR wholebrain signal acquisition and supports closed loop feedback for precision epilepsy treatment. The work, published in journals like PNAS and Nature Communications, highlights China’s advancing role in next generation neural interface technologies.

                                                                                                                                供稿：宋恩名

审核：黄高山、陈相仲