将柔性材料与人工智能结合，构建类生命智能软体机器，在软质机器手臂、水下软体微机器、器管动态仿真与康复、智能可穿戴器件等方面都具有重要意义。而融合感知与致动功能的人造肌肉，是构建软质机器的关键基础材料，是实现其高高灵敏、多模态感知，与高速、大应力应变致动的关键。通过探究肌肉细胞协同单向致动的机制，揭示生物细胞/微生物集合体与柔性材料的耦合机制，发展“活”人造肌肉在电/光/磁作用下协同运动规律。发展电/光/磁活性软质材料的仿生构筑策略, 揭示软质材料多级结构对多模态刺激的感应与致动机制，建立电/光/磁感知致动人造肌肉的构筑及致动理论。

Reversible Wet-Adhesive and Self-Healing Conductive Composite Elastomer of Liquid Metal，Advanced Functional Materials ，2022，Danfeng Pei, Shanyu Yu, Ping Liu, Yongpeng Wu, Xiaofang Zhang, Yijun Chen, Mingjie Li, Chaoxu Li，DOI: 10.1002/adfm.202204257-成果-仿生智能材料研究组 (qibebt.ac.cn)

Zwitterionic dynamic elastomer with high ionic conductivity for self-adhesive and transparent electronic skin,Chemical Engineering Journal,2022,Danfeng Pei, Shanyu Yu, Xiaofang Zhang, Yijun Chen, Mingjie Li, Chaoxu Li,DOI:10.1016/j.cej.2022.136741-成果-仿生智能材料研究组 (qibebt.ac.cn)

Design of MXene Composites with Biomimetic Rapid and Self-Oscillating Actuation under Ambient Circumstances. Tongfei Xu, Danfeng Pei*, Shanyu Yu, Xiaofang Zhang, Meigui Yi*, and Chaoxu Li*-成果-仿生智能材料研究组 (qibebt.ac.cn)

Liquid metal initiator of ring-opening polymerization: Self-capsulation into thermal/photo-moldable powder for multifunctional composites. Advanced Materials, 2020, X. Li, M. Li, Q. Shou, L. Zhou, A. Ge, D. Pei, C. Li, DOI: 10.1002/adma.202003553.-成果-仿生智能材料研究组 (qibebt.ac.cn)