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祝賀趙德民與丁老師關于生物仿生蒸發器的研究論文被綜合性國產領軍期刊Science Bulletin(科學通報英文版;IF:21.1)接收

鏈接:https://authors.elsevier.com/sd/article/S2095-9273(25)00502-X

Solar-driven interfacial evaporation has shown great potential for achieving desalination with high energy conversion efficiency. However, maintaining a high evaporation rate is challenging due to salt accumulation on solar evaporators (SEs), leading to a long-standing trade-off between stable evaporation and salt accumulation in conventional SEs. Inspired by the salt secretion and brine transport mechanisms in mangroves, we present a bio-inspired solar evaporator (BSE) featuring an external photothermal layer and an internal water supply channel. This design enables efficient and continuous evaporation from near-saturated brine using less photothermal material. The BSE exhibits high evaporation performance (3.98 kg m–2 h–1 for 25 wt% brine), e?cient salt collection (1.27 kg m–2 h–1 for 25 wt% brine), long-term durability (7 days in 25 wt% brine), and zero liquid discharge desalination. Notably, the BSE achieves a record‐high water production rate of 3.50 kg m–2 h–1 in outdoor tests. Furthermore, it can purify World Health Organization-standard freshwater from various types of contaminated water. Importantly, the universality of BSE design is validated by extending it to other solar desalination systems. This work demonstrates a universal SE design, providing key insights into the design of next-generation SEs for efficient and stable evaporation in continuous high‐salinity brine desalination.

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