☀️ 电场到底起了什么作用？ 研究团队利用计算模拟的方法，系统地分析了阳光的不同特性。他们发现：阳光中本就包含振荡电场，它能极大地加快水分子的逃逸速度。“当我们在模型中去掉电场成分时，蒸发变得更慢；而当电场存在时，水蒸发得非常快。而且，电场越强，蒸发速度越快！”刘 ...

Astronomers have witnessed a planet causing eruptions on its parent star. The discovery, published in Nature, could reshape ...

The ability to analyze gene expression at the single-cell level — known as single-cell RNA sequencing (scRNA-seq) — has ...

Ship traffic in shallow areas, such as ports, can trigger large methane emissions by just moving through the water. The ...

Researchers from The University of Osaka have developed a method to visualize and reconstruct individual urban plants in ...

This article reviews a study on greenhouse gas emissions from combined sewer overflows and explores strategies for mitigating ...

Discover how integrating decentralized water systems, source separation, and low-carbon technologies can transform urban ...

A novel real-time automated damage detection method leveraging reinforcement learning has been unveiled in a recent study ...

Professor Lei Ren’s team has proposed ProcessFM, the first foundational model framework tailored for the process industry.

Tomato development relies on intricate gene regulation, with one of the key genes, SlHAM4, emerging as a critical factor in ...

In an article published today in Nature, the team of Professor Denis Lafontaine (Head of the RNA Molecular Biology Laboratory ...