传统的人体热管理（PTM）主要通过主动加热和冷却系统，如制冷机组、空调和热泵，这消耗了大量的化石能源（约占全球建筑总能耗的50%），加剧了全球能源危机，并产生了环境污染问题。利用自然界中取之不尽的辐射热源（太阳，~5800 K）和冷源（外太空，~3 ...

然而，目前几乎所有的太赫兹吸波材料主要依赖自由电子的电导损耗机制实现太赫兹波的本征吸收，太赫兹吸波剂都采用金属、碳材料、MXene等电子 ...

The trick is to find the ones that are stable. By using a high-throughput computational platform and scanning through the formation energies of millions of alloying configurations, researchers ...

While MXene materials have proven exceptional among two-dimensional materials in a number of ways—including their strength, ability to selectively block and trap radiation and filter chemicals ...

MXenes: Changing the World, the 3rd International MXene Conference at Drexel University, August 5-7, 2024, will focus on chemistry and physics of materials, as well as research innovations, new ...

A recent study in Scientific Reports explores the heterogeneous wetting behavior of water on silica glass using advanced AFM techniques, revealing insights into nano-water droplet ... researchers from ...