Dual-layered composite nanofiber membrane with Cu-BTC-modified electrospun nanofibers and biopolymeric nanofibers for the removal of uremic toxins and its application in hemodialysis

In order to prepare a kind of hemodialysis membrane with both adsorption and dialysis abilities, we prepared a novel dual-layer composite nanofiber membrane by combining two different kinds of composite electrospun nanofibers. One layer of the membrane contains specially prepared polydopamine/polyac...

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Bibliographic Details
Published in:Journal of membrane science 2022-02, Vol.642, p.119964, Article 119964
Main Authors: Li, Wenyan, Chao, Shen, Li, Yumei, Bai, Fuquan, Teng, Yakun, Li, Xiang, Li, Lijuan, Wang, Ce
Format: Article
Language:English
Subjects:
Adsorption
Cu-BTC
Electrospinning
Hemodialysis
Urea and creatinine
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Summary:In order to prepare a kind of hemodialysis membrane with both adsorption and dialysis abilities, we prepared a novel dual-layer composite nanofiber membrane by combining two different kinds of composite electrospun nanofibers. One layer of the membrane contains specially prepared polydopamine/polyacrylonitrile (PDA/PAN) composite nanofibers modified by self-assembly of Cu-BTC on the surface of the nanofibers, which exhibit good adsorption capacity for urea. The second layer of the membrane contains biopolymers of chitosan/sericin (CS/SS) composite nanofibers, which show a good adsorption capacity for creatinine. The obtained dual-layer nanofiber membranes possess excellent blood compatibility. The maximum adsorption capacity of the dual-layer composite nanofiber membrane for creatinine is 100.50 mg/g, and the maximum adsorption capacity for urea can reach as high as 152.44 mg/g. In addition, a multi-layer flat-plate dialyzer was designed and manufactured for dialysis process. The prepared nanofiber membranes were used as a hemodialysis membrane for simulated dialysis tests. After 4 h of dialysis, the retention rate of bovine serum albumin (BSA) of the composite nanofiber membrane is 83.9%, the clearance rates on creatinine and urea are 82.3% and 92.8%, respectively. The prepared novel dual-layer membranes have the capacity to be utilized as a new adsorbent for hemodialysis applications. [Display omitted] •Novel dual-layer Cu-BTC-modified and biopolymeric nanofiber membranes are prepared.•The dual-layer nanofiber membranes have excellent blood compatibility.•Dual-layer membranes show high adsorption performance towards urea and creatinine.•The clearance rates of creatinine and urea are 82.3% and 92.8%, respectively.•Dual-layer membranes have broad prospects for practical application in hemodialysis.
ISSN:0376-7388
1873-3123
DOI:10.1016/j.memsci.2021.119964