研究人员在薄膜压缩红外光技术领域取得重要突破，揭示了该技术的三大创新优势，显著提升了实际应用潜力。研究团队证实：新型薄膜可令压缩后的红外光传播距离提升四倍以上；可作用于更宽泛的红外波段；同时具备优异的基材兼容性，能适应不同基底材料与复杂表面结构。

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 ...

How can transformative change in land use planning support biodiversity and climate goals, while balancing social, economic, ...

Forschungsergebnisse des Exzellenzclusters PRISMA+ mit dem Schweizer Paul Scherrer Institut in Science veröffentlicht ...

A new chemical strategy offers precision control in water treatment by producing hydroxyl radicals (•OH) only within a ...

Practicing reciprocity between humans and nature—namely caring relationships between people and nature when they perceive ...

A research team from the Universitat Politècnica de Catalunya - BarcelonaTech (UPC) and the Universitat de Barcelona (UB) has ...

A new study introduces a verification framework that rigorously evaluates the safety performance of autonomous driving ...

An Osaka Metropolitan University researcher examined the spatial patterns and geographic characteristics of ...

Quan augmenta la càrrega de treball del cor, es pot produir un augment del gruix de la paret ventricular que es coneix com ...