High flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation
A flawless, extremely loose, membrane, efficient for multivalent ions separation, has been successfully synthesized by the in-situ formation approach. The as-synthesized nanofiltration (NF) membrane, NF_PES-Zr, proceeded from a thin film layer of nanoparticles (NPs) zirconium that coated the platfor...
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IWA Publishing
2021
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oai:doaj.org-article:65b0e55e37ea4d9098189278839cadb92021-11-23T18:55:35ZHigh flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation1606-97491607-079810.2166/ws.2021.092https://doaj.org/article/65b0e55e37ea4d9098189278839cadb92021-11-01T00:00:00Zhttp://ws.iwaponline.com/content/21/7/3344https://doaj.org/toc/1606-9749https://doaj.org/toc/1607-0798A flawless, extremely loose, membrane, efficient for multivalent ions separation, has been successfully synthesized by the in-situ formation approach. The as-synthesized nanofiltration (NF) membrane, NF_PES-Zr, proceeded from a thin film layer of nanoparticles (NPs) zirconium that coated the platform of the polyethersulfone (PES) ultrafiltration (UF) membrane through a bio-glue made from dopamine hydrochloric and sodium bicarbonate buffer. The estimation of the average pore size of the novel organic-inorganic NF membrane NF_PES-Zr using the filtration velocity approach of Guerout-Elford-Ferry was close to 0.9 nm. NF_PES-Zr membrane holds a record in permeate water flux release of about 62.5 and was revealed to be effective for multivalent ions separation. A 5 days-test performed on NF_PES-Zr demonstrated its long-term stability and showed a rejection rate of 93.4% and 37.8% respectively for and . HIGHLIGHTS Organic-inorganic membrane preparation.; Nanoparticle zirconium deposition by in-situ formation method.; Modification of an ultrafiltration membrane to a nanofiltration membrane.; Energy dispersive spectrometry (EDS) associated with field emission scanning electron microscopy (FESEM) for membrane surface structures characterization.; High flux membrane for ions separation.;Chabi Noël WorouJing KangEric A. AlamouArcadius DeganPengwei YanYingxu GongRazack L. GueneZhonglin ChenIWA Publishingarticleions rejectionnanofiltrationnanoparticleorganic-inorganic membranepolyethersulfonezirconiumWater supply for domestic and industrial purposesTD201-500River, lake, and water-supply engineering (General)TC401-506ENWater Supply, Vol 21, Iss 7, Pp 3344-3355 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
ions rejection nanofiltration nanoparticle organic-inorganic membrane polyethersulfone zirconium Water supply for domestic and industrial purposes TD201-500 River, lake, and water-supply engineering (General) TC401-506 |
| spellingShingle |
ions rejection nanofiltration nanoparticle organic-inorganic membrane polyethersulfone zirconium Water supply for domestic and industrial purposes TD201-500 River, lake, and water-supply engineering (General) TC401-506 Chabi Noël Worou Jing Kang Eric A. Alamou Arcadius Degan Pengwei Yan Yingxu Gong Razack L. Guene Zhonglin Chen High flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation |
| description |
A flawless, extremely loose, membrane, efficient for multivalent ions separation, has been successfully synthesized by the in-situ formation approach. The as-synthesized nanofiltration (NF) membrane, NF_PES-Zr, proceeded from a thin film layer of nanoparticles (NPs) zirconium that coated the platform of the polyethersulfone (PES) ultrafiltration (UF) membrane through a bio-glue made from dopamine hydrochloric and sodium bicarbonate buffer. The estimation of the average pore size of the novel organic-inorganic NF membrane NF_PES-Zr using the filtration velocity approach of Guerout-Elford-Ferry was close to 0.9 nm. NF_PES-Zr membrane holds a record in permeate water flux release of about 62.5 and was revealed to be effective for multivalent ions separation. A 5 days-test performed on NF_PES-Zr demonstrated its long-term stability and showed a rejection rate of 93.4% and 37.8% respectively for and . HIGHLIGHTS
Organic-inorganic membrane preparation.;
Nanoparticle zirconium deposition by in-situ formation method.;
Modification of an ultrafiltration membrane to a nanofiltration membrane.;
Energy dispersive spectrometry (EDS) associated with field emission scanning electron microscopy (FESEM) for membrane surface structures characterization.;
High flux membrane for ions separation.; |
| format |
article |
| author |
Chabi Noël Worou Jing Kang Eric A. Alamou Arcadius Degan Pengwei Yan Yingxu Gong Razack L. Guene Zhonglin Chen |
| author_facet |
Chabi Noël Worou Jing Kang Eric A. Alamou Arcadius Degan Pengwei Yan Yingxu Gong Razack L. Guene Zhonglin Chen |
| author_sort |
Chabi Noël Worou |
| title |
High flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation |
| title_short |
High flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation |
| title_full |
High flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation |
| title_fullStr |
High flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation |
| title_full_unstemmed |
High flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation |
| title_sort |
high flux membrane based on in-situ formation of zirconia layer coated the polyethersulfone substrate for ions separation |
| publisher |
IWA Publishing |
| publishDate |
2021 |
| url |
https://doaj.org/article/65b0e55e37ea4d9098189278839cadb9 |
| work_keys_str_mv |
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| _version_ |
1718416157621354496 |