海洋中，颗石藻作为主要的浮游植物群体，凭借其独特的光合作用能力，在海水不同深度的多变光环境中展现出强大的生存优势。这种微小生物不仅能高效捕获光能，还能通过光合自养实现快速繁殖，然而其光系统复合物如何实现这一高效过程的微观机制，长期以来一直是科学界的未 ...

The STEM Squad at Lehigh University is sending engineering students and faculty into the community in an expanding effort to ...

That message has put CDC staffers left behind in an awkward position. Nine current and former employees told me they ...

在4070米水深的幽暗海山区一条长约32cm，翼展宽约18cm重量仅670g全身质地柔软的“鱼”，灵活巡弋这是哈尔滨工程大学船舶工程学院最新研究成果“电液驱动深海软体机器人”北京时间2025年8月14日国际学术顶刊《科学·机器人》《Science ...

《Science》杂志 9 月 12 日以封面文章的形式发表了一项关于海洋浮游植物如何高效利用光能的研究成果，来自中国科学院植物研究所的科研人员，首次揭开高碳汇微藻 —— 颗石藻高效捕获光能的奥秘。

Merck and AstraZeneca say the United Kingdom is not spending enough on medicines, but experts say it’s a symptom of ...

When the quark hypothesis was first proposed more than 10 years ago, there were supposed to be three kinds of quark. The ...