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Cellulose
Erschienen in: Cellulose 18/2021

14.10.2021 | Original Research

Cellulose nanospheres coated polylactic acid nonwoven membranes for recyclable use in oil/water separation

verfasst von: Jun Lu, Jiexiu Wen, Qihao Yu, Chaofan Cui, Juanjuan Su, Jian Han

Erschienen in: Cellulose | Ausgabe 18/2021

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Abstract

Oily wastewater has always been an environmental issue that we are concerned about and committed to managing. Although the superwetting membranes have been extensively studied and widely used in oil/water separation, the abundant discarded membranes are still headaches due to their non-degradable nature. In this work, all-around green material, as well as superhydrophilic polylactic acid (PLA) nonwoven membrane, is designed by coating cellulose nanospheres (CNCs) with the aid of polydopamine (PDA). Plenty of hydroxyl groups and hierarchical rough structure synergistically contribute to the superhydrophilicity and excellent oil/water separation performance of the resultant CNCs/PDA/PLA nonwoven membrane. Interestingly, the efficiency of oil/water separation can be maintained above 98% after 100 times of repeated use. With the outstanding durability and easy controllability, the CNCs/PDA/PLA nonwoven membrane may provide effective solutions to manage the oily wastewater and secondary pollution of the used membrane itself simultaneously.

Graphic abstract

Vorheriger Artikel Novel immobilized fibrous natural cotton on Corchorus olitorius stalks biochar@diethylenetriamine@feroxyhyte@diethylenetriamine composite for coagulative removal of silver quantum dots (Ag-QDs) from water
Nächster Artikel Chitosan derivative-based mussel-inspired hydrogels as the dressings and drug delivery systems in wound healing

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Literatur
Baig U, Matin A, Gondal MA, Zubair SA (2019) Facile fabrication of superhydrophobic, superoleophilic photocatalytic membrane for efficient oil-water separation and removal of hazardous organic pollutants. J Clean Prod 208:904–915CrossRef
Bhardwaj N, Bhaskarwar AN (2018) A review on sorbent devices for oil-spill control. Environ Pollut 243:1758–1771CrossRef
Cardona DS, Debs KB, Lemos SG, Vitale G, Nassar NN, Carrilho ENVM, Semensatto D (2019) A comparison study of cleanup techniques for oil spill treatment using magnetic nanomaterials. J Environ Manage 242:362–371CrossRef
Delparastan P, Malollari KG, Lee H, Messersmith PB (2019) Direct evidence for the polymeric nature of polydopamine. Angew Chem Int Edit 58:1077–1082CrossRef
Fang CC, Zhang Y, Qi SY, Li YY, Wang P (2020) Characterization and analyses of degradable composites made with needle-punched jute nonwoven and polylactic acid (PLA) membrane. Cellulose 27:5971–5980CrossRef
Hamad K, Kaseem M, Ayyoob M, Joo J, Deri F (2018) Polylactic acid blends: the future of green, light and tough. Prog Polym Sci 85:83–127CrossRef
Ismail NH, Salleh WNW, Ismail AF, Hasbullah H, Yusof N, Aziz F, Jaafar J (2020) Hydrophilic polymer-based membrane for oily wastewater treatment: a review. Sep Purif Technol. 233:116007CrossRef
Jing Y, Zhang L, Huang R, Bai DY, Bai HW, Zhang Q, Fu Q (2017) Ultrahigh-performance electrospun polylactide membranes with excellent oil/water separation ability via interfacial stereocomplex crystallization. J Mater Chem a 5:19729–19737CrossRef
Johar N, Ahmad I, Dufresne A (2012) Extraction, preparation and characterization of cellulose fibres and nanocrystals from rice husk. Ind Crop Prod 37:93–99CrossRef
Kizil S, Sonmez HB (2020) One-pot fabrication of reusable hybrid sorbents for quick removal of oils from wastewater. J Environ Manage. 261:109911CrossRef
Kurzina IA, Laput OA, Zuza DA, Vasenina IV, Salvadori MC, Savkin KP, Lytkina DN, Botvin VV, Kalashnikov MP (2020) Surface property modification of biocompatible material based on polylactic acid by ion implantation. Surf Coat Tech 388:125529CrossRef
Li K, Jin SC, Li JZ, Chen H (2019) Improvement in antibacterial and functional properties of mussel-inspired cellulose nanofibrils/gelatin nanocomposites incorporated with graphene oxide for active packaging. Ind Crop Prod 132:197–212CrossRef
Li C, Lai H, Cheng ZJ, Yan JJ, Xiao LH, Jiang L, An MZ (2020) Coating “nano-armor” for robust superwetting micro/nanostructure. Chem Eng J 385:123924CrossRef
Mehboob A, Mehboob H, Chang SH (2020) Evaluation of unidirectional BGF/PLA and Mg/PLA biodegradable composites bone plates-scaffolds assembly for critical segmental fractures healing. Compos Part A-Appl S 135:105929CrossRef
Padaki M, Murali RS, Abdullah MS, Misdan N, Moslehyani A, Kassim MA, Hilal N, Ismail AF (2015) Membrane technology enhancement in oil-water separation. A Rev Desalin 357:197–207CrossRef
Phuong HAL, Ayob NAI, Blanford CF, Rawi NFM, Szekely G (2019) Nonwoven membrane supports from renewable resources: bamboo fiber reinforced poly(Lactic Acid) composites. Acs Sustain Chem Eng 7:11885–11893CrossRef
Shi SC, Jiang SZ (2020) Influence of graphene/copper hybrid nanoparticle additives on tribological properties of solid cellulose lubricants. Surf Coat Tech 389:125655CrossRef
Song KL, Zhu WM, Li XY, Yu ZC (2020) A novel mechanical robust, self-healing and shape memory hydrogel based on PVA reinforced by cellulose nanocrystal. Mater Lett 260:126884CrossRef
Wang SH, Zhang XH, Xi ZY, Wang YJ, Qiao JL (2020) Design and preparation of polypropylene ultrafiltration membrane with ultrahigh flux for both water and oil. Sep Purif Technol. 238:116455CrossRef
Zhang ZM, Gan ZQ, Bao RY, Ke K, Liu ZY, Yang MB, Yang W (2020) Green and robust superhydrophilic electrospun stereocomplex polylactide membranes: multifunctional oil/water separation and self-cleaning. J Membr Sci. 593:117420CrossRef
Zhang WB, Shi Z, Zhang F, Liu X, Jin J, Jiang L (2013) Superhydrophobic and superoleophilic PVDF membranes for effective separation of water-in-oil emulsions with high flux. Adv Mater 25:2071–2076CrossRef
Zhu X, Feng SS, Zhao SF, Zhang F, Xu C, Hu M, Zhong ZX, Xing WH (2020) Perfluorinated superhydrophobic and oleophobic SiO2@PTFE nanofiber membrane with hierarchical nanostructures for oily fume purification. J Membr Sci. 594:117473CrossRef
Metadaten
Titel
Cellulose nanospheres coated polylactic acid nonwoven membranes for recyclable use in oil/water separation
verfasst von
Jun Lu
Jiexiu Wen
Qihao Yu
Chaofan Cui
Juanjuan Su
Jian Han
Publikationsdatum
14.10.2021
Verlag
Springer Netherlands
Erschienen in
Cellulose / Ausgabe 18/2021
Print ISSN: 0969-0239
Elektronische ISSN: 1572-882X
DOI
https://doi.org/10.1007/s10570-021-04247-1

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