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Hierarchically Designed Salt‐Resistant Solar Evaporator Based on Donnan Effect for Stable and High‐Performance Brine Treatment
Author(s) -
Zhao Wei,
Gong Han,
Song Yan,
Li Bo,
Xu Ning,
Min Xinzhe,
Liu Guoliang,
Zhu Bin,
Zhou Lin,
Zhang XuXiang,
Zhu Jia
Publication year - 2021
Publication title -
advanced functional materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.069
H-Index - 322
eISSN - 1616-3028
pISSN - 1616-301X
DOI - 10.1002/adfm.202100025
Subject(s) - brine , materials science , salinity , chemical engineering , evaporator , solar energy , desalination , chemistry , thermodynamics , membrane , organic chemistry , ecology , biochemistry , physics , heat exchanger , engineering , biology
Interfacial solar evaporation is considered to be a promising technology to treat brine with high energy transfer efficiency and a minimized carbon footprint. However, salt accumulation on solar evaporators during the brine treatment process has limited their widespread application. Herein, a hierarchically designed salt‐resistant solar evaporator is demonstrated, featuring confined Na + with salt‐resistant ability based on the Donnan effect. The high chemical potential of confined Na + leads to the Donnan distribution equilibrium, which minimizes the amount of the salt ions diffusing into the water supply layer and therefore fundamentally avoids salt accumulation. With this hierarchical design, the solar evaporator enables stable evaporation from high‐salinity brine (15 wt% NaCl) with a solar‐to‐vapor efficiency of 80% under 1 sun irradiation over a long period of time. Therefore, it provides an alternative and promising pathway for solar water treatment of high salinity brine.