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。

Georgia, as a former Soviet republic, began dealing with its Soviet past, but in the 1990s these processes were limited and ...

A KAIST research team has identified, for the first time, a brain circuit specifically responsible for forming fear memories ...

[ANNABA, SciDev.Net] En Afrique, les remèdes traditionnels issus des plantes médicinales sont depuis des siècles au cœur de ...

PARIS, SciDev.Net] L’Afrique n’est pas en situation de pouvoir tirer profit de la découverte récente d’un nouveau groupe ...

Researchers from China have examined South–South higher education interactions amid “triple disruptions,” applying Southern ...

SiRIUS, Tohoku University’s new institute for clinical research and medical innovation will hold its kickoff symposium on May ...

Professor Anton GARTNER (Distinguished Professor at the UNIST Graduate School of Medicine and Associate Faculty of the IBS ...

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