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。

A recent study identifies Neural EGFL-like 2 (NELL2), a secreted protein, as a key regulator of bone homeostasis, offering ...

La Agencia Europea del Medicamento (EMA) ha designado el alopurinol como el primer medicamento huérfano para el tratamiento ...

Through five City Labs, the NBSINFRA project explores how tailored, nature-based strategies can help cities face ...

This multidisciplinary study integrates seismic, geological, and socio-economic analyses to elucidate the event's mechanics ...

Last year we released a Gender Equality Plan (GEP) focused on advancing gender equality in all COST activities, with a ...

A new metal-free catalytic method for upcycling polyethylene terephthalate (PET) waste into valuable products has been ...

The CMS collaboration presents a new search for the decay of a Higgs boson into charm quarks, bringing physicists closer to ...

Physicists have now discovered a material that can be very useful in crafting tomorrow’s quantum technology: clay.

A powerful new short film, from the FutureNeuro Research Ireland Centre and RCSI University of Medicine and Health Sciences ...

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 ...