近日，天津大学穆九柯教授课题组与尹老师课题组合作，联合世界著名材料学家、美国德克萨斯大学达拉斯分校Ray Baughman教授（美国国家工程院院士、欧洲科学院院士、欧洲科学与艺术院院士等五院院士）、东华大学王宏志教授、青岛理工大学朱晓阳教授，合作完成“响应性机械超材料：跨越材料与结构的智能协同”论文成果，系统解码机械响应超材料的多物理机理、跨尺度制造与前沿应用，为下一代智能材料体系铺垫重要基础。

Shiju Yang†, Haoshi Ding†, Junlong Tan†, Yiyao Zhang†, Yuqi Guo, Rongjie Kang, Xiaoyang Zhu*, Hongzhi Wang, Ray Baughman, Zhigang Yin*, Jiuke Mu*, Multifaceted mechanical responsive metamaterials: mechanisms, fabrications, and applications, The Innovation 2025, doi.org/10.1016/j.xinn.2025.101070. (†Contributed equally) [Link]（中科院一区Top、IF= 25.7）

Mechanically responsive metamaterials, with their unique structural and functional advantages, have emerged as a key focus in interdisciplinary research spanning materials science, mechanics, and bionics. In this review, we begin with an in-depth analysis of the fundamental materials that constitute mechanically responsive metamaterials, exploring key driving mechanisms such as thermal, electrothermal, electrochemical, photo-responsive, and magnetic responses. By elucidating these underlying principles, we aim to provide readers with a comprehensive understanding of how these responsive behaviors are achieved. The review then systematically evaluates various fabrication methods tailored to specific material properties and structural design requirements, offering a critical analysis of the unique advantages and limitations of each approach. Furthermore, the review highlights the current applications of these fabrication techniques across different fields of mechanical metamaterials, providing a comprehensive overview of their practical implementation and potential.

** The Innovation报道|“响应性机械超材料：跨越材料与结构的智能协同”（2025-08-12；腾讯网转载）