Business Address:CCE1306 room, Sifang Campus
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Key Words:TEMPERATURE; PERFORMANCE; ABSORPTION; GRAPHENE; FILMS; WATER
Abstract:Intelligent materials with switchable wettability inresponse toexternal stimuli are highly desirable for sustainable water harvestfrom a humid atmosphere. Herein we present the design of a photothermal-responsivematerial for intelligent moisture capture and release based on marryingthermal-responsive poly(N-isopropyl-acrylamide)(PNIPAM) to reduced graphene oxide (RGO) with excellent photothermalproperty. The as-designed RGO/PNIPAM material could make itself asa heat source through efficiently converting sunlight into heat, drivingthe wettability change of thermal-responsive PNIPAM from hydrophilicto hydrophobic. Consequently, the RGO/PNIPAM achieves moisture capturewith its hydrophilic PNIPAM chains below the low critical solutiontemperature (LCST) (<32 & DEG;C) and complete water release undersunlight illumination through switching the hydrophilicity into hydrophobicityof the PNIPAM. This intelligent photothermal-responsive behavior ofRGO/PNIPAM matches nicely with the nature of typical day-and-nightchange of dry coastal areas, lighting up the practical prospect ofRGO/PNIPAM for water harvest from a humid atmosphere. Moreover, theswitchable wettability of RGO/PNIPAM is reversible, which endows itwith good recyclability in moisture capture and release (e.g., >10cycles). This study is interesting because it provides a paradigmin the design of intelligent materials for moisture harvest, whichmay shed light on the design and application of other high-performancestimuli-responsive materials.
Volume:5
Issue:9
Translation or Not:no