The maximizing daily freshwater yield on the ocean surface necessitates allday water harvesting technologies and materials. This is realizable by taking advantage of the natural sunlight and humid air, which can drive daytime solar desalination and nighttime fog collection, respectively. To this end, two types of hierarchically porous microneedle array structures, which demonstrate superior capabilities for efficient fog capturing and photothermal evaporation, respectively, are prepared. The gel-forged microneedle arrays with Janus wettability are fabricated via a simple and controllable top-down micro-molding process on a porous platform, and porosity within microneedles is further achieved readily by additional freeze-drying treatment. The developed microneedle structure shows an ultrahigh fog harvesting rate up to 30.5 kg m −2 h −1 , enabling high flux water droplet harvesting from moisture during nighttime. In the daytime, a solar evaporation rate of 2.46 kg m −2 h −1 is realized due to the increased evaporative area of the porous microneedle arrays and enhanced photothermal conversion. By uniting these two waterharvesting routes, a daily cycle can ideally deliver an overall water yield close to 200 kg m −2 , which will offer a promising solution for sustaining future lowcost and decentralized clean water production.
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