马德里卡洛斯三世大学（UC3M）与哈佛大学的联合科研团队取得重要突破，通过实验成功实现了对电磁超材料的可编程重构。这种创新性的人造材料无需改变其化学成分，即可重新编程其几何形状和结构行为。该项技术的问世，为生物医学和软体机器人等领域的创新发展提供了全新可能。

Identification of plant species at high risk of extinction in climate-sensitive alpine ecosystems. Alpine ecosystems are ...

Amid escalating tensions and evolving diplomatic overtures, the relationship between Israel and Syria has entered yet another complex phase. In wake ...

Inspired by the hollow skeletal structure of bird bones, which optimizes oxygen storage and respiratory efficiency, ...

Stroke is one of the leading causes of long-term disability worldwide. According to the World Health Organization, ...

This work provides valuable insights into the design of noble metal-loaded electrocatalysts with oxygen-rich reducible oxide ...

A former PhD student whose work has helped shape Ireland’s agri-food policy has been honoured with the 2025 Walsh Scholars ...

In an article has published in Frontiers of Agricultural Science and Engineering (DOI: 10.15302/J-FASE-2024592), Gasim Hayder ...

The innovative dual-serrated structure solar cell developed by Huazhong University of Science and Technology reduces ...