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Spatially regulated water-heat transport by fluidic diode membrane for efficient solar-powered desalination and electricity generation

Yuanhang Cao, Jiemin Wang, Weixin Guan, Meng An, Peng Yan, Zhengtong Li, Changsheng Zhao, Guihua Yu

2025Nature Communications33 citationsDOIOpen Access PDF

Abstract

Interfacial solar-driven evaporation has attracted great research interests, given its high conversion efficiency of solar energy and transformative industrial potential for desalination. However, current evaporators with porous volume remain critical challenges by inherently balancing efficient fluid transport and effective heat localization. Herein, we propose the strategy and design of lightweight, flexible and monolayered fluidic diode membrane-based evaporators, featuring regularly arrayed macropores and dense nanopores on each side. Such a delicate microstructure offers universality in establishing asymmetric channels along macroporous-to-nanoporous to enable the diode-like directional water transport as well as facilitate the heat localization on the nanopores side. Consequently, a high evaporation rate of a maximum 3.82 kg m−2 h−1 can be achieved under 1 sun illumination, exceeding most 2D and 3D evaporators. Besides, the durability and practicability of our evaporators are validated through salt resistance tests, purification experiments among various contaminants, and outdoor evaluations. Moreover, the structure engineering and water-transport optimization of fluidic diode membranes also offer potentials for hydrovoltaic applications, with over 1.6 V generated by tandem devices at the ambient environment. This work provides a concept for designing high-performance monolayered membranes applicable in environmental and energy-related realms. Solar-powered desalination is a sustainable approach to generate clean water for our society. Here, authors report lightweight, flexible, and fluidic-diode membrane-based evaporators to allow directional water transport and optimized heat localization. This Janus evaporator design enables high performance interfacial solar water evaporation, as well as hydrovoltaic applications.

Topics & Concepts

DesalinationFluidicsElectricityWater transportMembraneGeothermal desalinationMaterials scienceMicrofluidicsEnvironmental scienceNanotechnologyEnvironmental engineeringChemistryEngineeringElectrical engineeringWater flowBiochemistrySolar-Powered Water Purification MethodsSolar Thermal and Photovoltaic SystemsMembrane Separation Technologies