In this study, a bimetallic hollow nanoreactor (Co@SiO₂/Cu−X) was designed for the efficient degradation of antibiotics in medical wastewater. This nanoreactor is composed of ultrafine Cu and Co metal species in a mesoporous N-doped C-Silica heteroshell, and the synergistic interaction between the different metal species and the structural properties of the nanoreactor make the catalyst afford remarkable catalytic activity and excellent recovery stability during norfloxacin mineralization. Moreover, the photothermal properties of the nanoreactor enable it to exhibit excellent performance in solar-driven water evaporation, providing a dual strategy for wastewater remediation and clean water regeneration. In the face of complex water pollution challenges, this innovative design provides a promising solution for advanced water purification technologies.

中文翻译：

---

用于集成污染物矿化和太阳能水蒸发的 CuCo 双金属限域空心 SiC 杂化光热纳米反应器

在这项研究中，设计了一种双金属空心纳米反应器（Co@SiO ₂ /Cu−X），用于有效降解医疗废水中的抗生素。该纳米反应器由介孔N掺杂C-二氧化硅杂壳中的超细Cu和Co金属物种组成，不同金属物种之间的协同相互作用以及纳米反应器的结构特性使催化剂在反应过程中具有显着的催化活性和优异的恢复稳定性。诺氟沙星矿化。此外，纳米反应器的光热特性使其在太阳能驱动的水蒸发方面表现出优异的性能，为废水修复和清水再生提供了双重策略。面对复杂的水污染挑战，这种创新设计为先进的水净化技术提供了一个有前途的解决方案。