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W4366180268 endingPage "437" @default.
W4366180268 startingPage "437" @default.
W4366180268 abstract "The problem of water scarcity is already serious and risks becoming dramatic in terms of human health as well as environmental safety. Recovery of freshwater by means of eco-friendly technologies is an urgent matter. Membrane distillation (MD) is an accredited green operation for water purification, but a viable and sustainable solution to the problem needs to be concerned with every step of the process, including managed amounts of materials, membrane fabrication procedures, and cleaning practices. Once it is established that MD technology is sustainable, a good strategy would also be concerned with the choice of managing low amounts of functional materials for membrane manufacturing. These materials are to be rearranged in interfaces so as to generate nanoenvironments wherein local events, conceived to be crucial for the success and sustainability of the separation, can take place without endangering the ecosystem. In this work, discrete and random supramolecular complexes based on smart poly(N-isopropyl acrylamide) (PNIPAM) mixed hydrogels with aliquots of ZrO(O2C-C10H6-CO2) (MIL-140) and graphene have been produced on a polyvinylidene fluoride (PVDF) sublayer and have been proven to enhance the performance of PVDF membranes for MD operations. Two-dimensional materials have been adhered to the membrane surface through combined wet solvent (WS) and layer-by-layer (LbL) spray deposition without requiring further subnanometer-scale size adjustment. The creation of a dual responsive nanoenvironment has enabled the cooperative events needed for water purification. According to the MD’s rules, a permanent hydrophobic state of the hydrogels together with a great ability of 2D materials to assist water vapor diffusion through the membranes has been targeted. The chance to switch the density of charge at the membrane–aqueous solution interface has further allowed for the choice of greener and more efficient self-cleaning procedures with a full recovery of the permeation properties of the engineered membranes. The experimental evidence of this work confirms the suitability of the proposed approach to obtain distinct effects on a future production of reusable water from hypersaline streams under somewhat soft working conditions and in full respect to environmental sustainability." @default.
W4366180268 created "2023-04-19" @default.
W4366180268 creator A5001605418 @default.
W4366180268 creator A5008721334 @default.
W4366180268 creator A5012784862 @default.
W4366180268 creator A5024095430 @default.
W4366180268 date "2023-04-17" @default.
W4366180268 modified "2023-09-26" @default.
W4366180268 title "Aliquots of MIL-140 and Graphene in Smart PNIPAM Mixed Hydrogels: A Nanoenvironment for a More Eco-Friendly Treatment of NaCl and Humic Acid Mixtures by Membrane Distillation" @default.
W4366180268 cites W1548235560 @default.
W4366180268 cites W1881545202 @default.
W4366180268 cites W1974171732 @default.
W4366180268 cites W1977391253 @default.
W4366180268 cites W1983515415 @default.
W4366180268 cites W1990008082 @default.
W4366180268 cites W1998042699 @default.
W4366180268 cites W2004390801 @default.
W4366180268 cites W2007144348 @default.
W4366180268 cites W2016891598 @default.
W4366180268 cites W2021523927 @default.
W4366180268 cites W2025890541 @default.
W4366180268 cites W2037067199 @default.
W4366180268 cites W2047373203 @default.
W4366180268 cites W2056305974 @default.
W4366180268 cites W2059952903 @default.
W4366180268 cites W2072841884 @default.
W4366180268 cites W2074486458 @default.
W4366180268 cites W2079108395 @default.
W4366180268 cites W2080760754 @default.
W4366180268 cites W2092084163 @default.
W4366180268 cites W2093401104 @default.
W4366180268 cites W2110864332 @default.
W4366180268 cites W2124110528 @default.
W4366180268 cites W2130068839 @default.
W4366180268 cites W2327786507 @default.
W4366180268 cites W2332136976 @default.
W4366180268 cites W2336729425 @default.
W4366180268 cites W2486349781 @default.
W4366180268 cites W2560369966 @default.
W4366180268 cites W2563926069 @default.
W4366180268 cites W2611588488 @default.
W4366180268 cites W2617122582 @default.
W4366180268 cites W2620554260 @default.
W4366180268 cites W2626895424 @default.
W4366180268 cites W2768756945 @default.
W4366180268 cites W2780821363 @default.
W4366180268 cites W2789128101 @default.
W4366180268 cites W2789245031 @default.
W4366180268 cites W2794092764 @default.
W4366180268 cites W2797333454 @default.
W4366180268 cites W2802966863 @default.
W4366180268 cites W2884239678 @default.
W4366180268 cites W2885491942 @default.
W4366180268 cites W2888147139 @default.
W4366180268 cites W2901991006 @default.
W4366180268 cites W2910111753 @default.
W4366180268 cites W2941310921 @default.
W4366180268 cites W2950659896 @default.
W4366180268 cites W2951117599 @default.
W4366180268 cites W2963393468 @default.
W4366180268 cites W2966722893 @default.
W4366180268 cites W2982572440 @default.
W4366180268 cites W2987533289 @default.
W4366180268 cites W2991630194 @default.
W4366180268 cites W3005191404 @default.
W4366180268 cites W3011768186 @default.
W4366180268 cites W3012038519 @default.
W4366180268 cites W3017146562 @default.
W4366180268 cites W3022799085 @default.
W4366180268 cites W3033695698 @default.
W4366180268 cites W3034452368 @default.
W4366180268 cites W3036567114 @default.
W4366180268 cites W3047641953 @default.
W4366180268 cites W3053672359 @default.
W4366180268 cites W3064831254 @default.
W4366180268 cites W3108218659 @default.
W4366180268 cites W3123186400 @default.
W4366180268 cites W3130791646 @default.
W4366180268 cites W3146441902 @default.
W4366180268 cites W3156495219 @default.
W4366180268 cites W3187514132 @default.
W4366180268 cites W3188550374 @default.
W4366180268 cites W3191193412 @default.
W4366180268 cites W3198540468 @default.
W4366180268 cites W3201307594 @default.
W4366180268 cites W3203106149 @default.
W4366180268 cites W3207154923 @default.
W4366180268 cites W4205674761 @default.
W4366180268 cites W4225589617 @default.
W4366180268 cites W4251626552 @default.
W4366180268 cites W4280632962 @default.
W4366180268 cites W4293180257 @default.
W4366180268 cites W775248529 @default.
W4366180268 doi "https://doi.org/10.3390/membranes13040437" @default.
W4366180268 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37103864" @default.
W4366180268 hasPublicationYear "2023" @default.
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