Janus Membrane with Bioinspired Heterogeneous Morphology for Efficient Fog Harvesting

Abstract: Claiming water from the atmosphere or fog harvesting could be a promising route to relieve the scarcity of fresh water. The unidirectional water transportation of a Janus membrane has indicated a potential way of efficient fog collection. In this study, a facile two-step electrospun protocol was established to patch hydrophobic PVDF domains on a hydrophilic PAN nanofibrous texture in a designer manner inspired by the heterogeneous back structure of a desert beetle. The tuned heterogeneous surface morphology an… Show more

“…19,20 Luckily, similar to the fog capture material, the Janus membrane with asymmetrically superwettable interfaces can satisfy the needs of photothermal evaporation materials except for the photothermal conversion properties. 21,22 Therefore, it is desirable but remains a great challenge to develop Janus membranes with asymmetrically superwettable interfaces, adequate pore sizes and good interface compatibility for allday freshwater harvesting.…”

Multifunctional and asymmetrically superwettable Janus membrane for all-day freshwater harvesting

“…19,20 Luckily, similar to the fog capture material, the Janus membrane with asymmetrically superwettable interfaces can satisfy the needs of photothermal evaporation materials except for the photothermal conversion properties. 21,22 Therefore, it is desirable but remains a great challenge to develop Janus membranes with asymmetrically superwettable interfaces, adequate pore sizes and good interface compatibility for allday freshwater harvesting.…”

Multifunctional and asymmetrically superwettable Janus membrane for all-day freshwater harvesting

“…For atmospheric moisture capture, Zhu and coworkers reported the electrospinning preparation and performance of a porous polyacrylonitrile/polyvinylidene fluoride membrane for capturing and coalescing water aerosol droplets. 4 Absorbent materials remove contaminants from the fluid phase when they have a surface that has adsorptive affinity for the target species. The sorption approach leads to the creation of solid waste (which requires disposal) and to the unintentional removal of other species (which decreases the capacity for the target contaminant), but these undesirable issues are tolerable when current treatment processes show unsatisfactory performance.…”

“…Membranes can also generate clean water in a different manner. For atmospheric moisture capture, Zhu and co-workers reported the electrospinning preparation and performance of a porous polyacrylonitrile/polyvinylidene fluoride membrane for capturing and coalescing water aerosol droplets …”

Advancing Materials for Environmental Remediation and Human Health Protection

Hybrid wettability surfaces with hydrophobicity and hydrophilicity for fog harvesting